Huberman Lab - How to Exercise for Strength Gains & Hormone Optimization | Dr. Duncan French
Episode Date: November 8, 2021In this episode, I talk to Dr. Duncan French, Ph.D., the Vice President of Performance at the UFC Performance Institute and a world-class performance specialist. We discuss specific resistance (weight...) training regimens for increasing testosterone in men and women and how to vary mechanical loads and rest between sets and workouts to optimize hormone output and training results. We also discuss how stress-induced "catecholamines" can increase testosterone or decrease it, depending on duration and mindset. And we discuss specific cold- and heat- therapies for increasing resilience, reducing inflammation, heat shock proteins and more. We discuss nutrition for training and how to match nutrition to training goals and metabolic flexibility. We discuss mental focus and how long to train for skill development. Finally, we discuss how mixed martial arts and the UFC Performance Institute are a template for exploring human performance more generally. This episode is intended for anyone interested in athletic and mental performance: athletes, students, and recreational exercisers and includes both science and many practical tools people can apply in their own training. Read the full show notes for this episode at hubermanlab.com. Thank you to our sponsors AG1: https://athleticgreens.com/huberman LMNT: https://drinklmnt.com/hubermanlab Waking Up: https://wakingup.com/huberman Momentous: https://livemomentous.com/huberman Timestamps 00:00:00 Dr. Duncan French 00:02:44 Sponsors: AG1, LMNT & Waking Up 00:05:44 Duncan’s Background in Exercise Science 00:11:45 How Certain Exercises Increase Testosterone 00:16:22 What Kind of Training Increases Testosterone & Growth Hormone? 00:20:19 Intensity: Mechanical Load; Volume: Metabolic Load; Inter-set Rest Periods 00:25:25 Training Frequency & Combining Workout Goals 00:29:35 How Stress Can Increase or Decrease Testosterone 00:36:55 Using Cold Exposure for Mindset, Anti-Inflammation, Muscle-Growth 00:46:55 Skill Development 00:50:05 Why Hard Exercise Creates Brain Fog: Role of Nutrition 00:53:55 Low-Carbohydrate Versus All-Macronutrient Diets on Performance 00:56:15 Ketones & Brain Energy, Offsetting Brain Injury; Spiking Glucose During Ketosis 00:59:13 Metabolic Efficiency, Matching Nutrition to Training, “Needs Based Eating” 01:05:00 Duncan’s Work with Olympic Athletes, NCAA, UFC (Ultimate Fighting Championship) 01:08:00 Why UFC & MMA (Mixed-Martial Arts) Are So Valuable for Advancing Performance 01:12:40 Voluntarily Switching Between Different States of Arousal 01:14:30 Heat, Getting Better at Sweating, Heat Shock Proteins, Sauna 01:20:12 Using Rotating 12-Week Training Programs; Logging Objective & Subjective Data 01:24:07 Surprising & Unknown Aspects of The UFC and UFC Performance Institute 01:27:45 Conclusions, Zero-Cost Support, Sponsors, Supplements, Instagram Disclaimer & Disclosures Learn more about your ad choices. Visit megaphone.fm/adchoices
Transcript
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Welcome to the Huberman Lab podcast,
where we discuss science and science-based tools
for everyday life.
I'm Andrew Huberman and I'm a professor
of neurobiology and ophthalmology
at Stanford School of Medicine.
Today I have the pleasure of introducing Dr. Duncan French
as my guest on the Huberman Lab podcast.
Dr. French is the vice president of performance
at the UFC Performance Institute,
and he has over 20 years of experience
working with elite professional and Olympic athletes.
Prior to joining the UBerman,
The UFC, French was the director of performance science
at the University of Notre Dame.
And he has many, many quality peer reviewed studies
to his name, exploring for instance,
how the particular order of exercise,
whether or not one performs endurance exercise
prior to resistance training or vice versa,
how that impacts performance of various movements
and endurance training protocols,
as well as the impact on hormones,
such as testosterone, estrogen,
and some of the stress hormones, such as cortisol.
He's also done fascinating,
working exploring how neurotransmitters, things like dopamine and epinephrine, also called
adrenaline, can impact hormones and how hormones can impact neurotransmitter release.
What's particularly unique about Dr. French's work is that he's figured out specific training
protocols that can maximize, for instance, testosterone output or reduce stress hormone output
in order to maximize the effects of training in the short term and in the long term. So today
you're going to learn a lot of protocols,
whether or not you're into resistance training
or endurance training, you will learn, for instance,
how to regulate the duration of your training
and the type of training that you do
in order to get the maximum benefit from that training over time.
So whether or not you are somebody who just exercises
recreationally for your health,
whether or not you're an amateur or professional athlete,
or whether or not you're just trying to maximize your health
through the use of endurance and or resistance training.
Today's discussion will have a
wealth of takeaways for you.
There are only a handful of people working
at the intersection of elite performance, mechanistic science,
and that can do so in a way that leads to direct,
immediately applicable protocols
that anybody can benefit from.
Dr. French also provides some incredibly important insights
about the direction that sport and exercise
are taking in the world today
and their applications towards performance and health.
Before we begin, I'd like to emphasize
that this podcast is separate from IT,
teaching and research roles at Stanford.
It is, however, part of my 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,
I'd like to thank the sponsors of today's podcast.
Our first sponsor is Athletic Greens.
Athletic Greens is an all in one vitamin mineral probiotic drink.
I've been taking Athletic Greens since 2012,
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And now my conversation with Dr. Duncan French. Duncan French, great to see you again.
Likewise, likewise, thank you. I don't often have many Stanford professors in the Performance
Institute. So I'm really excited.
Oh, well, this place is amazing and you have a huge role in making it what it is.
The reason I'm so excited to talk with you is that you're one of these rare beasts that you have
been involved in human performance and athletic performance at the collegiate level.
You are obviously very involved in MMA now in the UFC Performance Institute.
And you also had the fortunate experience, I like to think, of doing a PhD in.
What exactly was the PhD in?
It was exercise physiology.
So you're familiar also with designing studies, control groups, all the sorts of things that,
in my opinion, anyway, are kind of lacking from the inter-executive.
internet social media version of exercise science, which is that people throw out all sorts of ideas
about how people should be training, what they should be doing and eating and not eating and
doing. And certainly science doesn't have all the answers, but I just think it's so rare to find
somebody that's at the convergence of all those different fields. And so I have a lot of questions
for you today that I'm sure the audience are going to be really interested in it. Well, listen,
I mean, I appreciate that. It's very humbling. And yeah, I've worked hard to get to where I am.
but I've always tried to be authentic.
And I think authenticity comes alongside, you know,
academic rigor and objectivity and insight and knowledge base, right?
At the end of the day, it's about having confidence,
having expertise and being able to deliver that expertise in my world to athletes.
And I think that's what I've always tried to do.
I've tried to have many strings to my bow so that I can talk with many different hats on.
You know, one day I'm talking to a coach,
the next time I'm talking to an athlete, the next day I'm talking to a CEO, the next day I'm talking to
an academic professor.
So I think being able to wear those different hats is certainly a skill set that I've tried
to build throughout my career.
And, you know, like I said, I've been blessed to work with, I think it was 36 different
professional or Olympic sports last time I've counted.
So, yeah, it's been a wild ride.
It's been great.
Which of those sports was the most unusual?
I've worked with crown green bowling, which I've done.
I don't know as an American guy.
I don't know how well you know that.
I've never heard of it.
Basically imagine a 20 foot by 20 foot square of turf with a small raise in the middle,
i.e. the crown.
So it slopes to the edges.
And then, you know, you throw out a white jack, a smaller ball,
and then you roll out larger bulls to try and get closest to the jack.
It's a very European thing, let's say.
But yeah, sports performance at crown green bowling.
there you go all right um wow and then to uh mixed martial arts fighters absolutely and everything in
between so um along those lines that could you give us a little bit of your background you know where'd
you start out where are you from originally yeah i'm from the northeast of england um so i'm from a
town called harrigot which is in yorkshire which is a northern kind of area of the nice sunny
weather all year along yeah you can imagine yeah with the two weeks of summer that we get you know
But yeah, I mean, I did my undergraduate studies there in sports science.
I did teacher training to be a physical education teacher after that.
Like most people, I then worked as a high school physical education teacher.
You know, great experience working with kids, you know, developing, you know,
athletic qualities.
But something in the back of my mind always, you know, I wanted more.
I wanted to be, you know, to be at the higher end of elite sport.
You know, I was a failed athlete like many people.
like I'm representing my country in different sports and things, but I never made it professionally.
So, you know, that little seed was sown in as much as I then started to reach out to,
you know, to different areas to do a PhD, whether it was in the UK or also, you know,
chance my arm took a punt see if we could get over to the States.
And all my buddies were going on, you know, gap years after the Finnish university or whatever
and going to Bali and hanging out or whatever, traveling through Thailand.
And I figured, well, you know, I've always loved the States.
and can I go and kill two birds with one stone and do something academic,
continue my studies, but also doing a different environment and get some life,
life experience in them.
Many, many rejections, as I'm sure you're kind of aware from different professors,
whether it's Roger Or Inoka or, you know, William Kramer.
So you just wrote to these folks.
I just called, called, and sent out information and said, yeah, so have you got any opportunities?
Pushed back from them all, but, you know, dogged and kept asking.
And, yeah, Dr. William Kramer, who was.
was at Ball State University in Indiana at the time, you know, a muscle neuroendocrinologist
and researcher in muscle physiology using resistance training. You know, he basically said,
listen, I can guarantee your funding for the first year of your studies, but not the next three.
Sounds like a typical academic response. I can take care of you, but not that well necessarily.
Right. Yeah. So spoke to my parents and said, hey, can we, can we take a punt? And they, you know,
they were great in supporting me. And yeah, long story short, came out to, to begin my PhD at
Ball State. After a year, Dr. Kramer transferred to Yukon, you know, Connecticut in stores in the
northeast there. And I transferred to him and with him. And yeah, four great years with my PhD and getting
my PhD with a really prolific research group that looked at, you know, neuroendocrinology,
hormonal work. But using resistance training primarily as an exercise stressor as a major
mechanism and then looking at all the different physiologies off the back of resistance training.
Yeah, you guys were enormously productive.
I found dozens of papers on how weight training impacts hormones and your name's on all of them.
And it's remarkable.
I have a question about this.
I'll just inject a question about weight training and hormones.
You hear this all the time that doing these big heavy compound movements or resistance training increases androgens, things like testosterone, DHT, DHA and so forth.
Does anyone know how that actually happens?
And it's like what about moving, what is it about engaging motor neurons under heavy loads,
sends a signal to the endocrine system, hey, release testosterone.
I've never actually been able to find that in a textbook.
Yeah, well, I mean.
And how can I do more of that?
As much as I know, you know, and again, I'm digging out into the annals of Duncan French's
kind of brain now.
But yeah, I mean, I think it's a stress response, right?
It's mechanical stress and it's metabolic stress.
And these are, you know, the downstream regulation.
of testosterone release at the gonads comes from many different areas.
You know, my work primarily looked at, you know,
catecholamines and sympathetic arousal.
So things like epinephrine, adrenaline.
Correct.
Yeah, epinephrine, adrenaline, you know, noradrenaline,
how they were signaling, the signaling cascade using, you know,
the HPA axis, releasing cortisol and then, you know,
looking at how that also influenced the adrenal medulla,
to release androgens and then signaling that at the gonads.
That raises an interesting question.
So in presumably weight training in women, people who don't have testes, also it increases
testosterone.
And is that purely through the adrenals?
When women lift weights, their adrenal glands release testosterone.
Absolutely.
I mean, that is the only area of testosterone release for females.
And yes, it's the same downstream cascade.
Obviously, the extent to which it happens is significantly less in females.
But that's how you, there's good data out there that shows, you know, females can increase their
anabolic environment, their internal anabolic milieu, using resistance training as a stressor.
And then they get the consequent muscle tissue growth, you know, whether it's tendon, ligament,
adaptations, you know, the beneficial consequences of resistance training, which is driven by
anabolic.
Yeah, I have two questions about that.
The first one is something that you mentioned, which is that the androgens, the testosterone comes
from the adrenals under resistance loads in women.
Is the same true in men?
I mean, we hear that the testes produce testosterone
when we weight train for men that have testes.
But do we know whether or not it's the adrenals
or the testes in men that are increasing testosterone?
More or both a little bit from each?
The field is divided presently
in as much as understanding the acute adrenergic response
in terms of anabolic response to exercise in an acute phase and the exposure to, you know,
a stimulus that is stress driven, which might be partly from the adrenal glands, partly from the gonads,
versus a longitudinal exposure to anabolic environments, which is primarily driven by, obviously,
the gonads and the release, the endocrine environment from testosterone release at the gonads.
So the field is split in terms of how exercise is promoting hypertrophy, you know,
muscle tissue growth and whether that is very much an adrenal stimuli or if that's significant enough
in these acute responses versus the longitudinal exposure, just elevated basal levels of anabolic
testosterone habitual level. So it sounds like with most things is probably both. It's probably
adrenals and the gonads. And then you mentioned that testosterone can have enhancing effects or growth
effects on tendon and ligament also. You don't often hear about that. People,
always think, you know, testosterone muscle, but testosterone has a lot of effects on other tissues
that are important for performance, it sounds like. Yeah. Yeah, what's the story there? Absolutely.
I mean, I think, you know, the testosterone hormone is, I mean, listen, there's androgen receptors
on neural tissue on neural axons. Pretty much everywhere. Exactly. So, you know, the binding capacity
of testosterone and influencing different tissues within the body, I touched on, you know, muscle tissue,
but, you know, the ligaments, the tendons, even bone, to some extent, you know, testosterone is
potential to influence that in terms of removing osteopenic kind of characteristics, etc.
So, yeah, it's a, it's a magic hormone, let's say, with many, many end impacts in terms
of adaptation.
I definitely want to get back to your trajectory, but as long as we're on the interactions
between androgens, testosterone and its derivatives and different tissue.
choose, you know, from the work that you did as a PhD student and throughout your career,
could you say that there's a, there are some general principles of training that favor testosterone
production in terms of that somebody who's not an elite athlete could use, somebody who's already
adapted to weight training somewhat, like they know the difference between a dumbbell and a barbell
and they know, they know the various movements. They're not going to damage themselves. But once
they're doing that, I mean, I've heard shorter sessions are better than longer sessions, but in
rep loads with that there's a lot of parameter space but if you were going to throw out some of the
the parameters that you think are most important to pay attention to for the typical person
who's trying to use weight training to build or maintain muscle yeah lose body fat so body
recomposition and or stay strong and healthy for sport of a different kind yeah so the work that we
obviously you know i was exposed to back in my phd um it was a double-edged sword and as much as testosterone is
really stimulated by an intensity factor and also a volume factor. Now, growth hormone is a little bit
different. That's largely driven by an intensity factor alone. Oh, really? I always thought that growth hormone
was driven by volume, which just goes to show you. Maybe I've got no, no, no, I think you're probably right.
It just goes to show you that most of what's out there on the internet is completely, right? Not only, not only is
it wrong, it's usually backward. So, no, trust. No, trust your instinct because because I think people
just make this stuff up. Right. Right. Because it's very hard to measure growth hormone into
testosterone and I can't imagine most of the stuff that I see out there, they're taking drips and,
and, you know, measuring free versus bound and all this kind of stuff. But that's what you do in
laboratories. Right. Yeah. You look at total composition and you look at how much of that is
free circulating in the system, how much is bound and therefore biologically active, bound to receptor
creating adaptation. But yeah, coming back to testosterone in terms of the training strategies,
it's largely driven by both an intensity and a volume factor. So if you look at,
at many of the exercise interventions that we use to try and investigate and interrogate testosterone.
It was usually, you know, a six by ten protocol.
So you touch in a six by ten meaning six sets of ten repetitions, which is, you know, it's quite
a large, you know, 60 repetitions is quite a large volume for a single exercise.
And that was usually pitched at about 80% intense of a one repetition max intensity.
Okay, so 80% of the one rep max, six sets of 10 reps, seven, seven,
separated by rest of like two minutes, two minutes, which is actually pretty fast, at least to me.
Anytime you see these two to three minutes, when you're actually watching the clock,
those two minute rest periods go by pretty fast.
By the third, fourth set, you're dying for more.
Yeah.
And I think, you know, we, you know, we formulated that kind of exercise protocol to really target, you know,
the release of testosterone and try and drive up these anabolic environments to study the, you know,
the endocrine, you know, consequences.
but I think that's that's the type of protocol that is most advantageous for driving anabolic
environment.
And that was it for the workout?
Yeah.
I mean, we would do that in a back squat.
So, you know, multi-joint, you know, challenging exercise, multi-muscle, multi-joint, 80% load of your
one repetition max and then six by 10.
We did play around with, you know, your classic German volume type 10-by-10 kind of protocols.
But they were just unsustainable at that 80%.
The key to what we also did was we always adjusted the loads to make sure that it was 10 repetitions that were sustained.
So if the load was too high and an athlete or participant had to drop the weight on the 6th repetition,
we would unload the bar and make sure they completed the 10 repetitions.
Bringing me back to the point of it's an intensity and a volume derivative that is going to be most advantageous for testosterone relief.
That's really interesting.
And one thing that you mentioned there is especially interesting to me, which is you said,
when you go from six sets of 10 repetitions to 10 sets of 10 repetitions, it's not as beneficial
and might even be counterproductive.
But to me, the difference between six and 10 sets is only four sets.
It doesn't even sound that much.
So that sort of hints at the possibility that the thresholds for going from a workout that
increases testosterone to a workout that diminishes testosterone is actually a pretty narrow margin.
Yeah.
And I think it comes back to that.
intensity factor then. You know, what we saw with that 10 by 10 protocol really sees pretty significant
drop-offs in the load. And again, we're trying to stimulate with intensity, with mechanical strain
through intensity, as well as metabolic strain through volume. And I think that's the paradigm that
you've got to look at is that the mechanical load has to come from, you know, the actual weight on the bar.
And the volume is the metabolic stimulus. How much are we driving lactate? How much are we driving,
and glycogenolysis in terms of that type of energy system for, you know, executing a 10 by 10
protocol.
And what we often saw was just a significant reduction in the intensity capabilities of an athlete
to sustain that.
So we shortened the volume to try and maintain the intensity.
Interesting.
And you could imagine just taking very long rest, keeping the session, being a big lazy bear
in training.
I sometimes do this.
I tell myself, I'm going to work out for 45 minutes.
and then two hours later I'm done, but not because I was huffing and puffing the whole time,
but because I was training really slowly.
Is there any evidence that training slowly can offset some of the negative effects of doing a lot of volume?
Well, it's an old adage of, you know, two responses to your question.
I mean, the first one I would say, you know, there's a difference between 10 sets of 6 and 6 sets of 10.
And I think that comes back to the volume conversation.
You know, six sets of 10 is driving up metabolic stimulus.
If you're doing 10 sets of six, you can probably take it to a higher intensity, but you're not going to get the same metabolic load.
You're not going to get the same internal metabolic environment that drives the lactate release,
that they will then signal further anabolic testosterone release because of the lactate in your body.
That's a key consideration.
The rest is often the consideration that's overlooked out there in general population and in many sporting environments.
You know, that the rest is as important a programming variable as the load and the intensity, the load, the volume, et cetera.
And yes, if you remove, if you extend the volume, if you extend the duration of your rest periods, what you're ultimately doing is influencing that metabolic stimulus again.
You're allowing the flushing of the body, the removal of waste products, you know, lactate to be, you know, removed from the body.
And then the metabolic environment is reduced.
So you want.
So if I understand correctly, you want to create a metabolic stress.
Absolutely.
So the way that I've been training, slow and lazy, is not necessarily the best way to go.
I could in theory do a 45 or 60 minute session where I pack in more work per unit time.
I'm not going to be able to, quote unquote, perform as well.
I won't be able to lift as much.
I'm going to have to, you know, unweight the bar between sets or maybe even during sets
if I have someone who could do that.
But it sounds like that's the way to go.
So it's got to be, so this, the old adage of high intensity, short duration is probably the way to go.
Correct. And, and, you know, in layman's terms, if the same objective, the same training goal is just muscle tissue growth.
And we're not talking about maximal strength or any of those type of parameters. We're just talking about growing muscle.
If there's an athlete A and they do six, six sets of 10 with two minutes rest and there's athlete B that does six sets of 10 with three minutes rest, athlete A will likely see the highest muscle gain.
muscle hypertrophy gains because of the metabolic stimulus that they're driving with the shorter rest
periods. Interesting. For all the years that I've spent exploring exercise science and trying to get
this information from the internet in various places that this is the first time it's ever been
told to me clearly. So basically I need to put my ego aside and I need to not focus so much
on getting as many reps with a given weight and keep the rest restricted about two minutes.
get the work in and then I'll derive the benefits.
I mean, you've absolutely nailed it, to be honest.
And again, if you think about human nature and how we approach,
we're inherently lazy, right?
As humans, we want to, you know, we want to take that rest.
We want to take the time out to recover and feel refreshed.
But we're trying to create a training stimulus.
We're trying to create a very specific stimulus internal to the body.
And that is often driven by the metabolic environment at that moment in time.
Now, if we allow the metacabolic environment to change by
extending the rest periods, we're not going to see as beneficial gains at the end of it.
Very interesting.
It is very much a motivational and ego thing rather than saying, okay, I'm going to push my loads
as high as I can and really challenge maximal strength, do fewer repetitions, take longer periods
of time.
It's a completely different approach to training.
It's a different end goal.
Interesting.
And you mentioned lactate.
So it seems still a bit controversial as to what actually triggers hypertrophy.
you hear about lactate build up or people that the common languages the muscle gets torn and then
repairs but I don't know does the muscle actually tear I mean microtrol okay microtromic
disruption of you know the mic within the muscle tissue for sure interesting and and we're talking now
about non-drug assisted people who's let's just say let's define our terms here are that whose
testosterone levels are within the the range of somewhere between 300 and 1500 or whatever
or 1,200, because it does seem that athletes who take high levels of exogenous androgens
can do more work and just get protein synthesis from just doing work.
Yeah.
You know, I've seen these guys in the gym, right?
The Holtale signs are not that hard to spot where they're just doing a ton of volume,
not necessarily moving that much weight.
They're just bringing blood into the, into the tissue.
And then they're loading up on, they're eating a ton of protein, presumably because they're
basically in puberty part 15, right?
they got on their 15th round of puberty,
where during puberty,
you are a protein synthesis machine.
I mean, that's, to me, that's, you know,
pretty clear about puberty.
Interesting.
So, and then you, in terms of,
because I know the audience likes to try protocol.
So that you described a protocol very nicely.
What about day to day recovery?
I mean, can the workout that you described
as intense but short?
How many days a week can the typical person do that
and sustain progress?
Yeah, I mean, I think that comes back to your training age and your training history.
Obviously, there's a resilience and a robustness with an incremental training age.
So, you know, that's not a protocol that I would advise anyone to go out and start, you know, tomorrow.
They'll be mopping them off the gym floor.
But at the same time, it's also relative, right?
So 80%, you know, of your maximum at a young training age, is still 80% versus, you know, I've been training 10 years.
It's still 80%.
But yes, the mechanical load is going to be significant.
It's just more tonnage, right?
um but yeah i think a protocol like that we would look at two two times you know a week something
that's that's pretty intensive like that because again it comes back to the point you make is that
you really need to be for one of better terms suffering a little bit through that type of protocol both
in terms of of the challenge of the load but also being able to tolerate the the metabolic stress that
you're exposed to it's it's a it's a you know a bit of a sicko feeling right because of the lactate that
you're driving up so i you know i wouldn't promote as an athlete you're
doing that type of modality, you know, multiple, multiple times unless you're from the realms
of bodybuilding and then you're really, that's the sole purpose of what you're trying to achieve.
Most athletes in most sports have diverse requirements in terms of outcomes that they're trying to
achieve. They're not just targeting muscle growth. Muscle growth is a conduit to increase strength,
increase power, increased speed, obviously. So yes, trying to get bigger cross-sectional area
of a muscle means that we can produce more force into the ground or wherever it may be if we're a
locomotive athlete. But usually sports men and women are not just purely seeking muscle growth.
They look for different facets of muscle endurance or maximal muscle power, muscle strength.
So then you've got to be very creative in how you build the workout.
If it's a bodybuilder, absolutely. They're chasing muscle growth and they're going to do so with
these types of protocols, which sees high intensities and high volumes of workload.
on a pretty regular basis.
If it's just somebody, you know, a weekend warrior that wants to keep in shape and look good,
I would say, you know, two times a week for a really challenging workout like that
and then flex the other types of workouts within the week to have more of a volume emphasis
where you reduce the intensity and you might just look at, you know, larger rep ranges
from 12 to 15 to 20.
Another workout where you're looking at, you know, reducing the volume but increasing the intensity
and really trying to drive, you know, different stimulus.
to give you more end points of success.
Great. No, that's really informative.
Along the lines of androgens and intensity,
when I think intensity, I think epinephrine, adrenaline.
And since you have a background in catacolamines and testosterone,
last time I was here at the UFC Performance Institute,
we had a brief conversation and I want to make sure I got the details right,
that in the short term, and a big increase in stress hormone
can lead to an increase in testosterone, like a parachute jump.
Correct.
But so stress can promote the release of testosterone.
That was news to me.
Right.
We always hear about stress suppressing testosterone,
stress suppressing the immune system, all these terrible things,
but in the short term, you're saying it can actually increase the release of testosterone.
So I have that right?
Correct.
Okay.
And so then the second question is, does my cognitive,
interpretation of the stressor make a difference. In other words, if I voluntarily jump out of a
plane with a parachute, does it have a different effect on my testosterone than if you shove me
out of the plane against my will, well, presumably with a parachute. Right. I mean, so this was what
all my PhD work was looking at was the, you know, the, the, the, the exposure to a stressor and the
pre-arousal of how your body essentially prepares for that stress and then how it manages it
throughout the exposure to the stress. And it was actually motivated from parachute jumpers.
There was an older study looking at parachute jumpers into into combat. And then, you know,
they were studying, you know, the cortisol, the stress response and the epinephrine response of
these parachute jumpers. So we got us thinking about, hold on, you know, there's certain
workouts that you do that are just the daunting. You know, it's like, okay, it's squat,
squat Saturday or whatever it may be, oh my gosh, this is going to be a, it's going to destroy me.
Right. Or I have to talk to this person I don't want to talk to or, you know, right?
I mean, something, or PhD dissertation exam or something.
Given public speaking or whatever it may be. Now, you know, we used an exercise, we used a resistance
training protocol that these athletes knew was going to be very, very challenging. It's going to be
that it's going to have some anxiety to doing it, they knew there were going to be some physical
distress from doing it. And, and then,
Therefore, you know, their mindset of how they were going to approach that was already set.
So what we saw 50 minutes prior to the start of an exposure to the workout,
the epinephrine, the neurodrenaline, the adrenaline was already starting to prepare the body sympathetically
to go into what it knew was going to be a very, very challenging workout.
So that brings you back to, you know, exercise preparation, competition for certain preparation,
preparation for certain competition, excuse me, you know, pre-workout routines, the use of music,
you know, all these different things that we know can now, you know, anecdotally in the gym we put into place.
But, you know, the data that I presented showed that it was the first of its kind to show that this link between, you know, epinephrine and noroponephenephrine release and arousal and then consequent performance.
So force output throughout the workout was intimately linked.
So what was the takeaway there?
Is it beneficial for people to get a little stressed about the upcoming impending event,
whether or not it's a lift in the gym or whether or not it's talking to somebody that you
might be intimidated to talk to or at an exam?
Is the stress good for performance or is it harmful?
Yeah, and I think that's a great question.
And I think I can only talk to physical exertion, which is what we were exploring.
And I don't want to tread on the toes of the.
the psychologist with flow state and these types of things because clearly i think you're in the
position of scientific strength on this one i think you have the leverage i mean i mean most you know
i have a lot of friends in that community as i'll just say as a buffer to your the answer you're
about to give that there's there's very little science around um flow and there's very little
neuroscience related to most psychological states anyway so i think we've got a lot of degrees of freedom here
all right i can breathe easy thank you for that i'll take i'll i'll be anything you like credit duncan
anything you dislike, send the mean comments to me.
Yeah, I think from my data, certainly, the greater arousal, the higher the performance was
from a physical exertion perspective.
And I think that was the intriguing part of some of my findings, where there's definitely
an individual biokinetics to some of these hormonal kind of releases.
And as much as those guys that had the highest, you know, adrenetic response in terms of epinephrine
release, norepinephrine release, also sustained.
sustained force output for a longer period of the workout than those that didn't.
So the individuals that had a lower stimulus of the sympathetic arousal, let's say,
certainly didn't perform as well throughout the workout.
Now, the intriguing thing then becomes is okay, and I think this really segues into
what we're doing here with combat athletes, with mixed martial artists.
You know, there's a philosophy, there's a paradigm now from myself in terms of the
exposure, repeat exposure, you know, the more you do that challenging workout, do you get the
same psychological stimulus? Do you get the same stress response? And the assumption is unlikely,
you know, you accommodate, you become accustomed to the stressor, your body will therefore adapt.
And that's the classic overload principle, right? And you then need to take the stressor down
a different route. But I think when you look at, you know, the athletes that we work with here,
it's a fist fight at the end of the day.
There's nothing more stressful than that.
But I think just the exposure to the rigors of training,
to understand the bad positions,
the bad situations,
to know that they can get out of certain situations
out of certain, you know,
submission holds or whatever it may be.
I think that really ties in with some of my PhD work
in terms of what these guys do to approach
what is, you know,
a really challenging sport and arena in mixed martial arts.
Yeah, it's definitely the extreme of what's,
possible in terms of asking does stress favor or hinder performance because yeah like you said at the
end of the day it's someone trying to hurt you as much as they possibly can within the bounds of the
rules and you're trying to do the same so that's you know i find that your thesis worked fascinating
where you never to be at the uh ufc performance institute luckily they made the right choice and
brought you here um but where you have never to come here i i was still fascinated by this because
and over we hear that stress is bad stress is bad stress is bad but everything i read from the scientific
literature is that stress and epinephrine in particular is coupled to the testosterone response to performance
and to adaptation provided it doesn't go on too long so um unless i'm saying something that violates
that i mean that's your work so it's a really um important and beautiful work and i i refer to it often
And so I'm just glad that we could, you know, bolt that down because I think the people need to know this that that discomfort is beneficial.
Now, there's a there's another side to this that I want to ask about, which is the use of cold.
In particular, things like ice baths, cold showers or any other type of cold temperature exposure, you know, in theory, that's stress also.
it's epinephrine. And so how should one think about the use of cold for recovery? So if it's
stress, how is, if stress, if cold causes stress, then how is cold used for recovery? That's what I
don't understand. And maybe you just want to share your thoughts on that. Yeah, no. And I think,
you know, it's a great question. And I think the jury is still out there, certainly,
knowing some of the conversations that we've been having. But I think, you know, when we talk about
stress, it's your classic fight, flight, or freeze approach. And, you know, throwing your body into,
you know, a cold tub, an ice bath or whatever it may be, certainly is going to have a physiological
stress response. Now, people are using that for different end goals. And again, I think that's
where the narrative has to be explained. If you are using the stress specifically to manage the mindset,
to use it as a specific stress stimulus.
That's the same as me doing 6 by 10, 80%.
You're just trying to find something to disrupt the system
to do something that's very, if one of a better term, painful, discomfort, whatever.
You're just finding a stressor and then being able to manage the mindset.
But if you're using cold specifically from a physiological perspective
to promote redistribution of vascularity,
of blood flow, you know, to different vascular areas of muscle that you feel have gone through
a workout, that are damaged or whatever it may be. I think there's, we've got to understand what that
stress mechanism is. And, you know, the data, the literature is certainly still out there with
respect to cryotherapy and cold baths and some of these, you know, high, these cold exposures
in terms of what they do at the level of the muscle tissue. If that's, if that's the target, if you're trying to
promote a flushing mechanism or you're trying to promote redistribution of the blood flow.
What you've got to understand is that cold is going to clamp down every part of the vascular
system.
And we've really got to understand how the muscle would be redistributed to areas of interest.
So, you know, I think the stress response is a real thing with respect to, you know,
cold exposure.
But I think the narrative around what are you using the cold for has to pre-sure.
the conversation because yes it's you know it's like putting your hand over a hot cold you know
that's a stress the same way as jumping in a cold bath is and i think most people don't realize that
you're going to get the epinephrine release from holding your hand up too close to flame and you're
going to get it from getting in the ice bat your body doesn't know the difference right your body
does not know the difference it has a you know a primordial kind of physiological
response that it's created over millions and millions of years. And I think that that's,
that physiology is, is not changing and it's, it's fixed in a particular way right now,
and that it doesn't understand the difference between whether it's six by 10 doing a
challenging workout over here, whether it's put my hands on the hot call, whether there's a
lion stood in front of me or whatever. That epinephine response from the, the level of the brain
down to the whole signaling cascade is, is the same. And cold, I've heard, can actually prevent
some of the beneficial effects of training,
that it can actually get in the way of muscle growth, et cetera.
Yeah, there's some pretty robust data out there now,
showing that it definitely has an influence on performance variables
like strength and power in particular,
but absolutely in terms of muscle hypertrophy.
And there's a big kind of theme in the world of athletic performance right now
in terms of periodization of cold exposure as a recovery modality.
Interesting.
When do you use cold?
You know, should you be using cold for recovery in periods of high training load when
you're actually pursuing, you know, it might be general preparatory work, we're actually
trying to pursue muscle growth.
Well, that's usually where you get the most sore.
It's usually where, you know, you feel the most fatigued.
But it's probably not the most beneficial approach to use an ice bath in that, in that
scenario because you're dampening, you're dulling the, you know, the mTOR pathway and the
hypertrophic signaling pathway.
Whereas in a competition phase where actually quality of exercise and quality of
execution of skill and technical work has to be maintained, you want to throw the kitchen
sink of recovery capabilities and recovery interventions in that scenario because you
now, you know, the muscle building activity should be in the bank.
That should have been done in the general preparatory work.
And now you're focusing on technical execution.
So you're absolutely right.
That's interesting.
So if I understand correctly, if I want to maximize muscle growth or power or, you know,
improvements and adaptations, then the inflammation response, the delayed onset, muscle
soreness, all the stuff that's uncomfortable and that we hear is so terrible is actually
the stimulus for adaptation.
And so using cold in that situation might short circuit my progress.
But if I'm, you know, I don't know that I'll ever do this.
but if I were to do an Ironman or something or run a marathon,
under those conditions, I'm basically coming to the race,
so to speak, with all the power and strength I'm going to have.
And so there reducing inflammation is good
because it's going to allow me to perform more work, essentially.
Absolutely.
Yeah, you have to be strategic about when you use some of these interventions.
And, you know, the time when you're preparing for a competition is not the appropriate time,
excuse me, is the appropriate time when you want to drive recovery
and make sure that your body is optimized.
You know, when you're far away from a competition, you know, date or, you know, out of season
or whatever it may be, and you're really trying to just tear up the body a little bit to allow
it to its natural, you know, healing and adaptation processes to take place, well, you don't want to
negate that.
You know, you want the body to optimize its internal recovery and that's how muscle growth
is going to happen.
So interesting.
There's a time kind of consideration that you need to make with these interventions.
For sure. At the UFC Performance Center, are the fighters periodizing their cold exposure,
or are they just doing cold at will? Well, it's not just the UFC. And again, I talk about
my personal experiences with different sports. I think just education around where scientists are
and our understanding of concepts like the use of cold exposure for recovery, ice bath.
You know, everyone wants to jump in an ice bath. But I think as we've as we've stepped back and scientists have
start to say, I've started to figure out and look at some of the data, you know, we're now more
intuitive about, well, actually, that might not be the best or the most optimal approach. And I think
that's, that's any given sport. So yes, certainly here at the UFC, we're trying to educate our
athletes around, you know, appropriate timing. And it's the same with nutrition. It's the same
with an ice bath intervention. It's the same with lifting weights. It's the same with going for a run
or working out on the bike. You know, there's tactics to when, when you do things and when you don't do
things and I think you know stress and cold exposure and we have to have a consideration around
that as well but it's not just you know m-ma fighters that's any any athlete and I think it's the best
the best professionals the most successful professionals do that really well they understand
they listen number one they educate themselves and then they build structure and I think you know
at the most elite level we always talk about it here at the UFC but the most elite level
you're not necessarily training harder than anybody else.
Everybody in the UFC trains hard.
Like everyone is training super hard.
But the best athletes, the true elite levels are the ones that can do it again and again and again on a daily basis
and sustain a technical output for skill development.
Therefore, their skills can improve or physical development, their physical attributes can improve.
So that ability to reproduce on a day-to-day basis falls into a recovery conversation.
Now, when is the right time to use something like an ice bath and when isn't is part of the high performance conversation for sure.
So really, they're scientists, they're building structure, they're figuring out variables.
Yeah.
But it sounds like the ability to do more quality work over time is one of the key variables.
I mean, it's fundamental.
I mean, garbage in, garbage out.
Quality in, quality out.
But in our sport, you know, I talk about mixed martial arts.
It's truly a decafalon of combat.
So there's so many different attributes, whether it's a grappling, whether it's a wrestling, whether it's a transition work, whether it's a stand-up striking.
So the different facets of a training program in this sport are significantly large compared to something like, you know, a wide receiver in football.
And that's no disrespect for wide receivers, but they run routes.
They're going to run a passantry, and that's all they need to do.
These guys have to be on the ground.
They've got to be great on the ground.
They've got to be great standing up.
They've got to be great with the back against the fence.
There's so many different kind of facets to our sport.
So managing the distribution of all the training components is one of the biggest
challenges of mixed martial arts.
And the best guys get that right.
They allow their body to optimize the training.
And remember, why are we doing training?
We're doing training for technical and tactical improvement.
Now, if your body is fatigued or you just can't expose yourself to more tactical
development or technical development, then you're essentially doing yourself a disservice.
You're going to be behind the curve with respect to those guys that can reproduce that day in,
day out.
On the topic of skill development, regardless of sport, we hear all the time, and it certainly is
intuitive to me that the person who can focus the best will progress the fastest.
But it's kind of interesting.
Sometimes I talk to athletes, and they seem...
got a little bit laid back about their training sometime.
And yet they obviously know how to flip the switch and they can really, you know, dial in the
intensity.
Do you think that there are optimal protocols for skill learning in terms of physical skill learning?
Like, could it ever be parameterized like the six sets of 10 reps?
You know, and this gets to the heart of neuroplasticity, which is still, you know, it's not a
black box, but it's kind of a black box with portions of it illuminated.
I like to like to say.
But what are your thoughts on skill development?
Is there, for somebody that wants to get better at sport, do you recommend a particularly
long or short training session?
It does intensity matter?
Or is it just reps?
Yeah, I think, no, it's not a volume-driven exercise.
It's a quality-driven exercise.
And listen, my expertise is not in motor learning and motor skill acquisition.
I tend to default to Dr. Gabriel Wolf here at UNLV for things.
for that she's one of the leading proponents in this area but you know if if you look at you know
true skill development it is about rehearsal of accurate movement accurate movement mechanics
and as soon as soon as that becomes impacted by fatigue or inaccurate movement you're now losing
the the motor learning you're losing the accuracy of the skill that you know people can call it
muscle memory or whatever they want right but essentially you're grooving neural
axons to create movement patterns and they're situational throughout sport, right?
You know, whether it's a croif turning soccer or a jump shot in basketball or a forehand
down the line, you can carve out that particular posture and position and skill and you can
isolate it and you can drill it again and again again. Now, as soon as fatigue is influencing
that repetition, it's time to stop. And the best coaches understand that. They understand
that it's quality over quantity when it comes to skill acquisition.
So to answer your question in a roundabout way, I would say, yes, it's shorter sessions that are
very high quality.
And I think the best athletes in my experience are the ones that consciously and cognitively
are aware of it at every moment of the training session.
They should leave the training session not necessarily just physically fatigued, but
mentally fatigued because they're completely engaged in the learning process.
the problem then becomes, okay, if we just do lots of, you know, 30-minute sessions,
we've got to do a lot of 30-minute sessions to get the volume exposure of the repetition
and the rehearsal of the skill again and again and again.
So it's a bit of a paradox.
It's a bit of a double-edged sword.
But, you know, a three-hour session versus a 90-minute session, you know,
we'll take the 90-minute session any day when it comes to skill acquisition
because that's going to be driven by quality over quantity.
Yeah, training and skill learning is incredibly mentally fatiguing.
I've often wondered why when one works out hard, whether or not it's with, you know, run or with the weights, why it's hard to think later in the day.
Right.
Yeah, it really, there really does seem to be something to it.
And I've wondered, is it depletion of adrenaline, dopamine?
I sometimes think it might be dopamine.
And here, I'm totally speculating.
I don't have any data to support this.
But if you hit a really hard workout or run early in the day,
oftentimes the brain just doesn't want to do hard mental work,
which gives me great admiration for these athletes
that are drilling their mind and body all day, every day with breaks.
So what are your thoughts?
What leads to the mental fatigue after physical performance?
Well, again, I don't want to talk out, you know, I'm talking to the man here, you know,
this.
Well, we're just two scientists speculating on this point.
Up until now, you've been giving us concrete peer reviewed study based feedback on my questions.
But if we were to speculate, I mean, I think this is a common occurrence.
People think if I get that really good workout in in the morning, I feel better all day.
That's true, unless that workout is really intense or really long.
Yeah.
And then you just, the mind just somehow won't latch on to mental work quite as well.
I mean, just philosophically, and I think there's, there's a, there's a, there's a,
coming back to this kind of stress consideration, you know, like a public speaking or taking an exam.
I mean, if you're, if, if, if you have an amazing coach who is setting up training in a
particular way, it's challenging. There's a strain related to it. And I'm not talking physical
strain. I'm talking figuring things out, you know, figuring out the skill. And I think that can
be stressful, like the learning process can be stressful. So, you know, we've touched on stress.
I also think if they, if they, if they hit the right technique, you know, that reward center in the
brain, that dopamine shot is going to fly up there. And there's only so many times that we can get
that before that becomes dampened. And I think there's an energetic piece to it. You know,
there's the fueling of the brain. There's the, there's the, the carbohydrate fueling exercise that
actually the strategy around how you fuel for learning and fuel for physical training is actually
pretty similar. Glucose. Yeah, it's glucose. It's sugar at the end of the day, right? So, you know,
Are you fueling accordingly around your training sessions?
Be that very physical because everyone thinks, okay, you know, I'm going to jump on a treadmill
and I'm going to bang out, you know, 15 sprints at max effort and I'm going to, you know,
be dropping off and lying on the floor at the end of it.
I need to refuel.
Well, what about the refueling of the brain in a very demanding exercise or drilling session
where you're looking at technique that you're trying to figure out that's very challenging
for your mind to figure out the complexity of it?
that still needs to be fueled or refueled afterwards.
And I think that's obviously,
it might be an area where athletes do themselves a disservice
by not appropriately fueling from what might be considered
to be a lower intensity session,
but the cognitive challenge has been significantly high.
So they're doing skill work or drill work,
and it's taxing the brain.
And they're thinking, oh, you know,
I wasn't, you know, pushing hard lifts or doing sprints.
And so I can just go off the rest of my day,
but then their mind is drifting.
Yeah, I mean, I speculate.
Yeah, that seems very reasonable.
I mean, I know that I'm here and presumably with the other athletes you've worked with,
nutrition is a huge aspect of that.
And I think the general public can learn a lot from athletic nutrition because at the end of the day,
the general public is trying to attend to their kids, attend to their work,
whether or not their lawyers or whatever.
They need to focus.
Nutrition is a barbed wire topic.
Oh, yeah.
But since we're free to do what we would do if we were just sitting in each other's offices,
which is to just speculate a bit, for the typical person, right, do you think these low carbohydrate diets,
typical person who exercises, runs, swims, yoga, lifts weights, maybe not all those things,
but some collection of those, pushes themselves to do those things and to do them well,
but isn't necessarily a highly competitive athlete.
Do you think that nutrition that doesn't include a lot of glucose,
doesn't include a lot of carbohydrates,
is a problem?
Or is it okay?
What do you recommend for athletes?
What do you recommend for typical people?
Yeah, again, disclaimer, I'm not a dietitian.
But I...
That's okay.
The dietitians don't know what to recommend to athletes either.
And I say that from having to spend a lot of time with the literature now.
It's a complete mess.
Yeah.
It's like, I thought we didn't understand anything about
the brain, the nutrition science stuff is all over the place.
Right.
So I think we have, again, a large degrees of freedom.
Right, right, right.
I mean, I think, you know, I think it comes down to metabolic efficiency.
So we would never, we would never advocate a high, I never say never, okay, but, you know,
we rarely advocate a high performance athlete in a, in a high intensity intermittent sport,
like MMA, being totally ketogenic or, you do not recommend that.
No, because at the end of the day, some of those high-intensity efforts usually require, you know, carbohydrate fueling for the energy, the energy is produced at those high-intensity.
So we try to navigate around that.
Now, listen, there are fighters in the UFC and elsewhere.
Matt Brown is a great example who promotes the ketogenic approach, and it works for him.
But we look at the science and the nature, the characteristics of our sport, and we don't necessarily promote that.
Can I interrupt you real quick?
What about ketones for people that are ingesting carbohydrates?
This is an interesting area because people always hear ketones and they think,
oh, I have to be ketogenic to benefit from taking ketones.
But there are a number of athletes and recreational athletes now as well,
taking liquid or powder-based ketones even though they do eat rice and oatmeal and bread and other things.
So are there any known benefits of ketones, even if one is not in a state of ketones?
So the the only the the use of ketones that I'm primarily aware of is is in our sport is after the
event, you know, in terms of the brain health with athletes that take, you know,
potentially taking trauma to the brain, et cetera, and looking to maintain the fueling and the
energy supply to the brain. But yes, it's probably a little bit out of my remit. So I don't want to
talk on that because I'm not I'm not fully familiar with that. Well, I've heard that keytones
after head injury can provide a buffering component.
Correct.
It's not going to reverse brain damage,
but it might be able to offset some of the micro damage.
Right.
So that's how we use it,
just to sustain the energy supply to the brain
that might be compromised through brain trauma.
So that's why we use ketones.
To come back to the original question,
if it's a general population,
then yes, I think there's a place to argue
that actually being on a ketogenic diet at times,
and maybe that's a cycling exercise,
maybe not you know i don't mean cycling a bike i mean cycling um ketosis um is beneficial because i think
it's going to lead to better metabolic management and and metabolic efficiency at those lower
intensities where we should be fueling our our metabolism with lipids and fats and clearly the
the western diet and you know the modern day diets is heavily driven by processed food and
carbohydrates that you know people become predisposed to utilization of that fuel source um
above lipids use, fat use, intensities that are very low.
So, you know, some of our data with the fighters shows that as well.
But I think the challenge for us is that we're working with a clientele
that require high intensity bouts of effort.
So, you know, fueling appropriately is very important for that.
Now, we use tactics here where we essentially have athletes on what you would say,
is it largely a ketogenic diet, but then we will fuel carbs.
carbohydrates around training sessions.
So we'll do very timed exposure to carbohydrates.
Post training.
Post training, immediately pre, during, and then immediately post.
And then the rest of their diets, you know, breakfast, lunch and dinner are what would look
like ketogenic type approaches.
So we're trying to be very tactical in the exposure to maximize the intensity for
the training and then return to a metabolically efficient diet, which is heavily reduced
in carbohydrate.
because we've fueled the sessions that need it.
I'm smiling because once again, this place, the UFC Performance Center,
is doing things scientifically, which to me, the idea, and I'm pleased to hear that,
because to me, this idea that the ketogenic diet is the best and only diet,
or carbohydrates and low-protein diets are the best diet, it's just, it's ludicrous.
Then you mentioned metabolic efficiency.
I think some people might be familiar with that term, some perhaps not,
But the way I understand metabolic efficiency is that you teach the body to use fats by maybe doing long, long bouts of cardio, maybe lowering carbohydrates a bit.
So teaching the body to tap into its fat stores for certain periods of training.
And then you also teach the body to utilize carbohydrates by supplying carbohydrates immediately after training and before training.
You teach the body to use ketones.
And then you use them at the appropriate time, as opposed to just deciding that one of these fuel sources is good in all.
all the others are bad or dispensable. Do I have that correct? You nailed it. I mean,
from Bob Sibahar as formerly of USA triathlon, is the guy that kind of came up with the
concept of metabolic efficiency. But yes, you're absolutely right. I mean, at low intensities of
exercise or just day-to-day living, we shouldn't be tapping into our carbohydrate fuel sources
extensively. That's for higher intensity work or, you know, the fight or flight needs of stress,
you know. If, you know, athletes or any individual has a high carbohydrate diet, they're going to
start to become predisposed to utilizing that fuel source preferentially. Now, at low intensity,
that can be problematic, certainly for an athlete, because if they preferentially use carbohydrate
at lower intensities, when the exercise demand goes,
to a higher intensity, they've already exhausted their fuel stores.
You know, they can't draw upon fat because the oxidization of that fat is just too slow.
So they're essentially now become fat because they've already utilized the carbohydrate stores.
So what we try to do, yes, through diet manipulation and a little bit of exercise manipulation
is, as you say, teach the body or train the body to preferentially use a specific fuel source,
fat, obviously at lower intensities and carbohydrate at high intensities.
And we look at specifically the crossover point between the two.
tells a lot in terms of how an athlete is ultimately how their metabolism is working.
Well, again, I'm smiling because I love this because it's grounded in something real and
scientific, which is that we have these different fuel sources. The body can adapt to use any
number of them or one of them. I think most people are looking for that one pattern of eating,
that one pattern of exercising that's going to be best for them or sustain them. And they often
look back to the time when they felt so much better switching
from one thing to the next, but the adaptation process itself is also key, right?
Teaching the body.
And I, so if we were to just riff on this just a little bit further, if somebody, I'll use
myself as an example since I can only speculate what other people's current nutrition
protocols are, but if somebody is eating in a particular way and they want to try this
kind of periodization of nutrition, could one say, okay, for a few weeks I'm going to do more
high intensity interval training and weight training and I'm going to eat a bit more carbohydrate
because I'm depleting more glycogen. Then if I switch to a phase of my training where I'm
doing some longer runs, maybe I'm not, maybe I'm training less. Maybe I'm just working at my desk
a little bit more. Then I might switch to a lower carbohydrate diet. Do I have that right? And then
if I'm going to enter a competition of some sort, certainly not UFC or MMA of any kind, to be
clear, not because it isn't a wonderful sport, but because that wouldn't be good for my other
profession. But if I were going to do that, then I would think about stacking carbohydrates,
ketones, and fats. Is that, do I have that more? I mean, I think, yeah, you said it eloquently.
At the end of the day, you're consciously understanding what the exposure to physical exertion is
and you're flexing your diet accordingly. So it's need-based eating. Exactly.
You know, for one of the better terms, you can call it whatever fancy terminology there is out there.
But yes, it's needs-based eating.
But you're very conscious and cognizant of what is my current exercise status.
You know, if I'm taking some time off, then, you know, don't gorge on the carbohydrates.
We probably need to be cut.
It's going to be lower intensity work or even just habitual day-to-day walking around doing your groceries.
You know, that doesn't require massive amounts of glycogen storage and carbohydrate fueling.
So you can potentially go more ketogenic in nature, you know, oxidizing lipids for that fuel.
If you are in a high period of high intensity training, then you have to consciously flex your diet to support that.
That's not normal.
You've made a change.
You've elevated the demand.
So the fueling requirements for the regenerative, not only fueling the exercise, but the regenerative requirements of your body after that type of work is going to be really important as well.
So yes, take on more carbohydrates.
So I think it's consciously interpreting the nature of your diet against where you are at any
moment in time.
Yeah, like that.
You know, I think the listeners in my podcast generally are experimenters.
They are scientists of themselves, which makes me happy, obviously.
And I like to think that they're paying attention to the changes they're making and how
they're affecting themselves.
And they seem more open to trying things, provided they can do it safely, you know, and seeing
what works for them. And I'm certainly going to try some of the change up. I also am really a
creature of habit. And I think the talking to you today, I realize I'm probably doing a number of things
truly wrong in my training, but also that I don't tend to vary my nutrition with my training
quite as much as I should. I'm just locked into a protocol. We, we cover a number of things
related to your PhD thesis work. And then, but I cut you off early on related to your trajectory.
after you finished your thesis, I know you were at Notre Dame for a while.
Was that your first spot after your PhD thesis?
No, no.
I basically finished my PhD and I dropped into the British Olympic system for about 14 years.
Oh my.
I was with, you know, I've done three full Olympic cycles with different sports and largely a strength and conditioning coach as a practitioner.
I was always working in universities and academia alongside.
you know, in terms of continuing to publish and write and do research and teach as well.
That explains the huge volume of publications.
I don't think people realize the work that goes into getting a quality peer-reviewed publication.
It's not what do they call it now on Instagram, Anic Data, where people do something
want, you know, they have this experience and then they put in the world that it's anac data are,
I don't even know that we should call it data.
But so 14 years in working with the British Olympic team.
Yeah, so with, you know, whether it was GB boxing, primarily with the Rio, excuse me, the Beijing cycle, but also lightweight rowers and gymnastics.
And for the London Olympic Games, that cycle, I was with, I was the lead strength and conditioning and physical performance coach for British basketball.
So, GB basketball.
I had about three years in the English Premier League and with Newcastle United and the soccer team.
And then for the Rio Olympic cycle, I was with Great Britain Taekwondo.
So again, another combat sport.
After I'd finished there, I kind of moved to the University of Notre Dame,
where I went into more of a managerial position working across all the different technical services,
medical, nutrition, strengthening, psychology, whatever, sports science, whatever it may be,
as the director of performance sciences for Notre Dame athletics.
And then after about 16 months there, the UFC came knocking,
and they recruited me out of Notre Dame.
So it's been a great ride.
And lots of, you know, I've got, you know, lots of athletes have taught me a lot along
the way, lots of coaches, you know, every day is a school day.
I still try and keep that mentality.
And, you know, in this world, we call it white belt mentality, you know, it's, you know,
I'm a PhD.
I've got 25 years of experience in high performance sport.
But I still learn every single day from these people out on the mats and in the ring.
And it's impressive to see what they do.
Yeah, it certainly is. I got introduced to MMA just a few years ago. I think the first time I came out here was one of the first times I'd heard of MMA because I was kind of in my laboratory and, you know, nose down. And it's a really interesting sport because it incorporates so many different types of movement. As you said, you know, it's not just stand up boxing. It's just kicking. It's every, you know, ground game, everything. And I'm still learning about it. But as you mentioned, going in with that beginner's mind, the white belt mentality.
what has been the most surprising thing for you in terms of being exposed to
MMA in particular as opposed to other sports?
Like what's unique about MMA fighters besides that they have this huge variety of tactical
skills that they have to learn and perfect?
Yeah, that's a great question.
I would say two things.
I'm going to answer two questions.
One actually reiterates what you've already said.
Like the degrees of freedom in mixed martial arts are exponential.
Like no other sports.
You know, we've got 11 different weight classes.
We have men's classes, we have women's classes.
We have, you know, kickboxers, wrestlers,
jiu-jitsu fighters, jodokas, you know, like karate fighters.
You know, the stylistic backgrounds are infinite.
We have, we're a weight classification sport.
There's a whole issue relating to making weight
and then rebounding to fight about 24 to 30 hours.
Like just the variability in this sport,
the considerations that you have to make are,
are unprecedented compared to any other sport that I've worked with.
And a lot of them go against and are the antithesis of what you would expect for high performance.
You know, in terms of we don't always have a very clearly defined competition schedule.
You know, once these guys fight, they don't necessarily know when their next fight's going to be.
What's the closest spacing of a fight?
I mean, listen, I think the record is around, it's just over a month, I believe.
goodness so you know that that's a quick turnaround but most of these guys are fighting you know
three or four times a year three times a year is pretty normal um the the bigger fights maybe two
times a year but invariably the guys don't know when that next date is going to be so we're in
this gray area of okay what what do we do like are we taking some time off or we're just going
to do some general prep work are we going to try and keep this you know the knife sharpened
in case i didn't realize this in that way it's a lot like special operations
Absolutely. You don't know when the call is going to have.
They have to be ready at all times.
There isn't this like, let's get ready for the season.
Right. Yeah.
Like when I was with the British Olympic Association, you know, I knew it was the British
Open, the Spanish Open, the French Open, the European Championships, the Israeli Open,
the American Open, the Canadian Open, the Olympic Games.
It's a circuit in your brain.
Right.
Yeah.
You just plan like, you know where all the targets are going to be here.
It's a moving target because you might be just hanging out doing some general prep work and
then you might get a short notice fight that give you a quick.
call and it's in six weeks or five weeks and okay i've got to ramp everything up really quickly so
that's a real challenge in terms of just managing all these these different components of mixed
martial arts alone the the other to come back to your question the other thing which is truly
fascinating about these individuals is their just their mental resilience and again we've
touched on it in the talk but you know the ability to do what they do on a daily basis to
look at all the different skill sets that they have to try and engage in and bring into their
training to do that and embrace the grind, embrace the process of just learning. The physical side
of our sport is unprecedented, but the mental side, you know, we have a funny saying. We always say
it's 90% mental, apart from the 60% that's physical. So, you know, it's just more and more
and more and these guys' ability to to just do that on a daily basis is is is very impressive like
their resilience their internal drive and their resilience is is is really impressive to see you know
all the fires I've met here have been really terrific it's interesting every time I meet a fighter
how often I I shouldn't be surprising where they're often very soft-spoken right always extremely
polite yeah yeah and fighting is such a you know it comes from a very primitive portion of the
brain right is uh but a lot
portion of the brain nonetheless.
But I think that's another skill is that switch, you know.
And again, that's the recoverability piece, right?
Like, you cannot be type A or you cannot be like supercharged 24 hours a day because
you're going to just fry your system, right?
And I think that's something else where we're really trying to manage this whole process,
be it through nutritional interventions, be it through education around sleep,
be it through training program management, be it through psychological interventions.
You know, you could look at fighters and say, like, these guys are go.
Like, they're red alert and they'll run through a brick wall.
But actually, again, their ability to turn it on and off means that they can do what they do.
You know, they can bring it down and be very normal, very polite, very, you know, accommodating.
Maybe even better than most people, because, you know, one of the reasons I'm obsessed with human performance and high performance and people like fighters and, you know, elite military or even bodybuilders for that matter is,
that they experiment.
Yeah.
They find the outer limits of what's possible.
But one of the things that they have discovered,
as you're describing, is this ability to toggle between high alert states and calm states.
Most typical people can't do this.
They see something that upsets them on the internet or something on the news or some external
event pressures down on them and they're stressed for many, many days and weeks.
And sometimes it goes pathological, right?
And I don't say this as a criticism.
It's just that most human beings, within our.
species, most members of our species never learned to either flip the switch or to just
voluntarily toggle between states. I think athletes learn how to do that extremely well.
And it sounds like MMA fighters do that even better than perhaps many other athletes.
I mean, yeah, there's the odd one or two that would struggle with. But I think in terms of that
chronic exposure, we see that coming from challenges around, you know, cyclical weight cutting
and metabolic disruption and metabolic injury, not necessarily.
necessarily from the psychological drive.
You know, they do understand that this is a job for them.
And the time on the mats, you know, most of them can turn it off a little bit
and downgrade things when they're off the mats.
It's impressive to see.
Because again, like as a layman, just looking at the fight game, you think, you know,
it's going to be crazy, chaotic 100 miles an hour every hour of every day.
But that's not, it's clearly not the case.
They manage their energy and their energy.
efforts pretty well. It's a little bit like science, although maybe scientists could take a lesson
from. Yeah, is that evidence based practice or practice based evidence, right? I like that. That's good.
A couple more questions. I can't help myself. I know we talked about temperature earlier when we
discussed cold, but I can't help myself. I have to ask you about heat because earlier we were
having a conversation about heat adaptation, about how long does it take for the human body or athlete
or typical person that's maybe exploring sauna or things of that sort,
to learn to be a better sweater.
It sounds like something none of us would want to do.
We all want to say cool, calm, and collected.
But one of the reasons to deliberately expose oneself to heat is for things like growth, hormone,
release, et cetera.
We can talk about this.
But a couple of questions.
One is heat exposure stress in the same way that the ice bath or cold exposure is stress.
The second one is, is there any difference there that's important?
And the other one is, how does one get better at heat adaptation, or at least what are you doing with the fighters to get them better at dealing with heat? How long does that take?
So the first question, just because I threw three questions at you, is, was, you know, is heat stress like cold is stress?
Yeah, I think it is. And I think, you know, heat shock proteins, for example, are driven by that stressful exposure to a changing environment.
So I think, you know, it's, we do graded response in terms of heat acclimation strategies.
But yes, we've touched on it earlier in the conversation.
For me, heat is still a stressor.
And if it's managed incorrectly, you can have detrimental responses rather than beneficial responses.
So barring like hyperthermia and death.
Like, I mean, obviously heat up the brain too much.
People will have seizures and die.
But you lose neurons.
But what's the right way?
to acclimate heat.
Taking into account that people are, you know,
should check with their doctor, etc.
We do all these disclaimers.
But, you know, but let's say I, let's just say I want to get better at dealing with heat
or I want to extract more benefit from heat.
I mean, how many minutes a day are people typically exposing themselves to heat?
How often and over how, what periods of time?
Yeah, so we normally start with about 15 minutes of exposure.
Now, if someone's really lacking acclamation to heat, you know,
you can do that in three, five minute efforts.
Do you know what I mean?
And actually take time.
Hot sauna.
Yeah, hot sauna.
Take time to step up.
200 degrees or something like Fahrenheit.
Correct.
Yeah, 200 Fahrenheit, yes.
And we try to work up to 30 to 40 minutes to 45 minutes in the sauna continuous.
Now, we have to understand, you know, what's the advantage of heat acclamation for our athletes?
Ultimately, their ability to sweat and to lose, you know, body fluids is going to be advantageous to their weight cut process, their ability to make weight.
It is a technique that some of these guys adopt.
So if you don't have high sweat rates,
it means you're going to have to sit in the sauna for longer and longer and longer
to get the same delta in sweat release.
So the more acclimated you are, the more your body is thermogenically adapted,
the more sweat glands you have, there's more pores.
You can sweat more and therefore you'll lose that fluid quicker
and you spend less time in the sauna.
So that's why we do it to try and promote,
the limit to limit the exposure and it comes back to your first question is it a stressor it's it
absolutely it's a stressor if you've got to spend you know two hours and over you know over a four
hour period two hours of it sat in a sauna because you where the phone doesn't work so you can't
know people just divorce them from their phone and that's a stressor in itself right i mean yes i think
you know there's there's a you know what we do is we like anything we build up in temperature but we build
up in volume of exposure so you know we start with 15 minutes and
minutes and then we just try to add on and add on across the time and now now for us we kind of found
about 14 um sauna exposures starts to really then drive the adaptations that we're looking for so it's
not a quick fix you know a heat acclamation strategy has to happen long before fight week or long before
the fights you know this is a this is a process that has to begin you know eight to 10 weeks before
the fight so that we can actually get that adaptation and that tolerance to the stressor to the exposure
of heat that's interesting I
Until today, when we were talking about this earlier and again now, I didn't realize that,
but it makes perfect sense now that I hear it, that heat adaptation is possible, that you basically
can train the body to become better at cooling itself, which is what sweating is.
I mean, I should have known that before, but you know, you don't see that in the textbooks.
And so, yeah.
I mean, listen, it's, it's the same as the ketogenic conversation.
You know, you're training your body to be more metabolic efficient.
You're training your body to tolerate heat more.
You're training in your body.
Like the body is, you know, as an organism, as an organic system, it's hugely adaptable.
It's hugely plastic.
But I think the skill is understanding the whens, the wise and the where ofs in terms of changing the overload, changing the stimulus to drive specific adaptation.
And philosophically, that's how we go about our work here.
We talk about adaptation-led programming.
Now, adaptation-led programming fits into every single category, not just lifting weights or running track.
It fits into nutrition.
It fits into sitting in the sauna.
It fits into being in a cold bath or not.
It fits into so many different things because we're driven by scientific insights.
And that's how we really want to go about our business.
I love it.
I love this concept of adaptation-led programming and doing that not just in the context of throwing another plate on the bar or something like that,
but in every aspect of one's training and performance.
And I think there's a lot here that's applicable to the recreational athlete too.
Yeah.
Would you say that what comes to mind is 12 weeks?
It feels like 12 weeks is a nice block of time for someone to try something
in terms of to try something new, see how they adapt, adapt,
and then maybe switch to something new.
I realize that it's very hard to throw a kind of pan timeframe around something.
But in terms of if someone wanted to experiment,
with heat adaptation or experiment with cold adaptation or change up their training regimen
or diet and look at metabolic efficiency. Do you think 12 weeks is a good period of time to really
give something a thorough go and gain an understanding of how well or how poorly something
works for oneself? Or would you say eight is enough or three? I mean, that's how long is a piece
of string kind of response, right? I mean, yes. If we're just talking arbitrary numbers. Recreational
experimenter, yeah. Three months, expanse.
12-week training, you know, strategy, 12-week intervention is more than adequate to say
for 99% of things that change within the body that physiologically adapt to a training
stimulus or an overload stimulus, you're going to start to see either regression or progression,
you know, beneficial or detrimental effects within three months. Absolutely, I would say.
So now, listen, I say that in as much as we do training blocks here that are three weeks long,
right? That's because of this constraint that sometimes people suddenly
have to they get the call to fight correct yeah so it's like super condensed and you know in that in that
scenario we're always conscious of is a body is their body or this individual do they have the ability
to tolerate that super overload that like super condensed exposure now we might be doing that purposefully we
might be trying to do an overreaching strategy where we're really trying to damage or flex something
and i don't mean like negatively damage but like we're trying to damage tissue to really get an adaptive
response versus, you know, more drawn out 12-week strategy, which is more coherent, more planned
out, more structured in nature. But yeah, for all your listeners, I would say, if 12 weeks to engage
in a process of, you know, trying to change and adapt your body or expose yourself to something is
more than sufficient to see if it's going to be the right approach for you. And I think, you know,
the individual interpretation is always has to be considered.
And I think that's where it comes back to be a thinking man's athlete or be a thinking man's trainer,
like someone that's going through exercise.
You have to consciously understand where your body's at any moment in time.
You know, you've got to be real with yourself.
You can create a journal, create a log of your training, create a log of your feelings,
your subjective feedback of, you know, how you felt, your mood, your sleep.
Your athletes do that?
Yeah, yeah.
We try to promote that because, again, that's part of this process, you know.
maybe 12 weeks for you, but I might get the same responses in eight, eight weeks, you know.
And I think that's, that's another critical theme here is that, you know, we could put 15 guys
on the mat and give them the same workout.
And there's going to be 15 different responses to that same workout because the human
organism is so complex and in nature that it's going to adapt differently.
You know, some people will tolerate it, some people are going to be challenged by it.
Some people have got a metabolic makeup that's going to promote it.
Some people are metabolically challenged by it.
There's just so many different things that we have to consider.
And that's what we try to do here.
It's the cross we bear is that we try to understand on an individual level how to
optimize athletic performance.
I think it's terrific.
And the athletes here are so fortunate to have this.
And most people out there, I've certainly been trying to encourage people to learn some
science and some mechanism and become scientists of their own pursuits,
whether or not skill learning or athletic pursuit, et cetera.
As a sort of a final question,
what are some things about the UFC or something about the UFC
that perhaps people don't know in terms of its overall mission
or what you guys are trying to do here?
I mean, I think I've become a fan of MMA and I am more and more
as time moves on.
Some people might be in MMA, some people not into watching MMA.
But what are some things that the UFC is interested in and doing
that most people might not know about it and certainly I might not know about.
Yeah, I mean, I think, you know, we, we try to be cutting edge.
We try to be super progressive.
You know, we think we've got an amazing platform here, particularly at the Performance
Institute, to do some really cool things that can inform many different people.
And that doesn't just mean the 600 or so athletes that are on our global roster.
What we're trying to do is influence global community around optimizing human performance.
So any moment in time we're engaging in different technologies with different vendors, different
partners, exploring opportunities to learn more, share data, understand what's the best mechanisms
for interpreting your body, interpreting how your body's responding to training, interpreting your
nutrition or whatever it may be.
We're in a really privileged position to do that.
But we've also, you know, hence you've been here today, you know, we're also trying to venture
into some really cool areas of science and research that's got applicability that you can take
from high performance athletes and apply, you know, to yourself, to, you know, Joe Blow
walking down the street, you know, out there that is really interesting.
And that's everything from, you know, whether it's CBD and psychedelics through to different
technologies for, you know, thermal monitoring and Bluetooth heart rate monitoring or
whatever it may be through to data management, et cetera, and anything in between.
We've got some great partners on the nutrition side, on the psychology side, on the data side.
And I think, you know, we always try to just push the envelope a little bit more.
I think we keep our core mission with our athletes.
But I think a lot of what we do, hence your podcast, and, you know, like an amazing platform,
you do such a great job of it, that, you know, we can all learn and take from, you know,
the elite and interpret how it might help us and just in the general population.
So I think that's, you know, that's our North Star is to provide our athletes the best
integrated service of care.
But we also want to influence, you know, just the global community and put, you
the UFC at the forefront of that.
That's great.
Well, you guys are certainly doing it.
We can't let the cat out of the bag just yet, but the things that we're gearing up to do
with my laboratory and the work together.
Hopefully we'll be able to talk about that and share that.
in the year to come, but we're very excited about that.
And Duncan, look, you know, I have this filter that I use when I talk to people,
academics or otherwise, which is, you know, some people, they open their mouth in it,
and it doesn't make much difference.
But when you speak, I learn so much.
I'm going to take the protocols that I've heard about today.
I'm going to think about how I'm training and how I could train differently and better,
how I'm eating, how I could eat differently and better for sake of,
performance and just in general. Thank you so much for your time. Your scientific expertise,
the stuff you're doing in the practical realm, it's immense. So hopefully we can do it again.
Yes, thank you. This has been a blast. I appreciate it. And yeah, keep doing what you're doing
because I know there's a lot of people out there that love the platform. So thanks for the invite.
It's been awesome. Thank you. Thanks so much.
Thank you for joining me for my conversation with Dr. Duncan French. I hope you found it as insightful and
informative as I did.
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