Muscle for Life with Mike Matthews - How to Get Fitter Faster by Boosting Your Body's Energy Systems
Episode Date: September 9, 2020If you’ve read any books on weightlifting, endurance sports, or training in general, you’ve probably come across the term energy system before. Unfortunately, the more you read about energy system...s, the more confused you’re likely to become. Most explanations of energy systems quickly devolve into a complex firehose of scientific jargon like Krebs cycle, mitochondrial respiration, anaerobic glycolysis, and other tongue twisters. Luckily, you don’t need a degree in exercise science to decipher energy systems. You don’t even need to know what most of these words mean. At bottom, energy systems describe how your body produces energy during physical activity, from squatting a barbell to running a marathon to typing on a keyboard. As you’ll learn in this podcast, gaining a better understanding of how energy systems work can help you improve your performance by optimizing your training and nutrition to support different energy systems, which in turn can improve your performance in different activities. For example, have you ever wondered why your muscles begin to burn and you lose your breath when doing high reps? Or why you start to feel tired after running for more than a few minutes? Or why most people recommend you eat a lot of carbs to perform well as an athlete? Energy systems hold the answers to all these questions. What’s more, understanding energy systems gives you a much better idea of how to fuel your body for exercise, as what you eat can significantly impact the efficiency of different energy systems in your body. In this podcast, you’ll learn: How energy systems work Why your body uses different energy systems during different kinds of exercise How to eat and train to improve the efficiency of different energy systems How improving one energy system in particular may help you gain muscle and strength And more Let’s begin. 3:53 - What is an energy system? 6:20 - What is the phosphocreatine system? 10:54 - What is the aerobic system? 18:22 - How do these energy systems relate to weightlifting? --- Mentioned on The Show: Books by Mike Matthews: legionathletics.com/products/books/ --- Want to get my best advice on how to gain muscle and strength and lose fat faster? Sign up for my free newsletter! Click here: www.legionathletics.com/signup/
Transcript
Discussion (0)
Hi, hey, hello, and welcome to another episode of Muscle Life. I'm Mike Matthews. Thank you for
joining me today to learn about energy systems, which sounds technical and it sounds academic
and abstract. However, as you are going to learn in this podcast, it can be made simple and it can be made practical by understanding how some of your
body's primary energy systems work and how you can enhance them. You can boost your workout
performance, which means, of course, better gains over time. Now, if you've tried to look into this before, you might have ended up confused because you quickly ran into scientific
jargon like the Krebs cycle and mitochondrial respiration and anaerobic glycolysis and other
multi-syllabic tongue twisters. Luckily, however, you do not need a degree in exercise science to understand
the grammar of this subject, to understand the fundamentals. You don't even need to know what
any of those words mean, really, because at bottom, energy systems simply describe how your
body produces energy when you do physical things, whether it is squatting a barbell or running a marathon or
just typing on a keyboard. And as you will see, or hear rather, in this podcast, gaining a better
understanding of how the energy systems, how the primary energy systems in the body work,
can help you better understand how to optimize your diet and your training in order to support
and boost these systems, which again means better workouts and faster progress. For example,
have you ever wondered why your muscles begin to burn and you start to lose your breath when you
are doing higher rep training in the gym or why you start to feel tired after running more than a few minutes, or why most people recommend that you eat a lot of
carbs to perform well as an athlete? Well, the answers have to do with the body's energy systems.
Also, if you like what I'm doing here on the podcast and elsewhere, definitely check out my health and
fitness books, including the number one bestselling weightlifting books for men and women in the world,
Bigger, Leaner, Stronger, and Thinner, Leaner, Stronger, as well as the leading flexible dieting
cookbook, The Shredded Chef. Now, these books have sold well over 1 million copies and have
helped thousands of people build their best body ever.
And you can find them on all major online retailers like Audible, Amazon, iTunes, Kobo,
and Google Play, as well as in select Barnes and Noble stores. And I should also mention that you
can get any of the audio books 100% free when you sign up for an Audible account. And this is a
great way to make those pockets of
downtime, like commuting, meal prepping, and cleaning more interesting, entertaining, and
productive. And so if you want to take Audible up on this offer, and if you want to get one of my
audio books for free, just go to www.buylegion.com and sign up for your account. So again, if you appreciate my work and if you want to see more of it, and if you want
to learn time proven and evidence-based strategies for losing fat, building muscle and getting
healthy and strategies that work for anyone and everyone, regardless of age or circumstances,
please do consider picking up one of my best-selling books, Bigger Leaner
Stronger for Men, Thinner Leaner Stronger for Women, and The Shredded Chef for my favorite
fitness-friendly recipes. All right, so let's start with a simple definition of what an energy
system is. An energy system is a process your body uses to transform food you eat, and particularly the carbohydrate,
protein, fat in the food you eat into a form of energy that your cells can actually use to do
things, to power physical activity, to stay alive. So what happens is you eat a meal and then your
body breaks down the protein and the carbohydrate and the fat in the food into smaller molecules
that it can use in different ways. So protein, for example,
is broken down into amino acids, which are primarily used as building blocks for the body
of cells and tissues. And amino acids are rarely used for energy to turn into something that the
cells can use for energy. Whereas carbohydrate is broken down ultimately into a simple sugar
called glucose, and that can be used either immediately for energy, or it can be packaged
into bundles to then be stored in the muscles and liver. And those bundles are called glycogen
molecules. And glycogen then can be easily broken back down into glucose when energy is needed,
especially during intense periods of activity
like exercise, for example. Now, fat is broken down into molecules called triglycerides,
and then those can either be used immediately for energy or can be stored as body fat for
future energy needs because the body fat then can be broken down quickly into these simpler molecules, which then
can ultimately be turned into very simple molecules that cells use for energy. Now, what are those
very simple molecules? Well, they are called adenosine triphosphate, ATP. Before any of the molecules I just discussed, the amino acids, the glycogen or glucose or the
triglycerides, before any of those can be used for energy by our cells, they must be converted
into this other compound, adenosine triphosphate ATP. Now the body has three energy systems it can
use to supply its cells with ATP and which one or ones it primarily relies on
depends on what's going on, depends on how quickly the body is burning through energy and how much
energy it needs. Now, these three systems are the phosphocreatine system, the anaerobic system,
and the aerobic system. So let's start with talking about the phosphocreatine
system. So of course we have to start with what is phosphocreatine? Well, phosphocreatine,
which is also known as creatine phosphate, is a naturally occurring energy source found in muscle
cells and the body creates it by chemically modifying creatine, which is a molecule found
in animal products, especially red meat, and also
creatine supplements. And the phosphocreatine system is able to use this molecule, this
phosphocreatine molecule, to generate ATP, which then powers cells. And the main advantage of this
system is that it can be used to generate a lot of ATP very quickly. And that of course makes it
perfect for activities that require very brief and intense bursts of effort like sprinting or
very heavy weightlifting. Let's say a one rep max attempt or maybe a two or three rep set where you
are ending very close to failure. Now, the downside of the phosphocreatine system is that the phosphocreatine
stores in the body are not very large. The body can only store a small amount of this stuff,
specifically about enough to power 10 to 20 seconds of this very high intensity activity.
Now, the body does naturally regenerate phosphocreatine,
but it takes several minutes, like five minutes or longer for your muscles to be fully recharged,
so to speak. Now, in case you are wondering how creatine supplements fit into this, how creatine
impacts the phosphocreatine system is, it improves the efficiency of this system. It allows your body to create more ATP
than it would be able to otherwise. And that's how creatine, primarily how it improves performance.
Now, you can also increase the efficiency of this system by doing a lot of this high intensity,
brief, almost all out effort type of training interspersed with a lot of rest, but that's only going to take
you so far. Now, if your body has enough phosphocreatine to power through, let's say,
10 to 20 seconds of very high intensity effort, what happens after that? Well, what happens is
the anaerobic system starts to take over. The anaerobic system starts producing the majority
of the ATP for your muscles
to keep doing whatever it is that you're doing. And this system is called anaerobic because it
regenerates ATP without the presence of oxygen and without aerobic oxygen. Now, because this system
does not need oxygen to produce ATP, it can produce energy fairly quickly, but not as efficiently as the
aerobic system, which we'll talk about in a minute. The anaerobic system is also often referred to as
the glycolytic system because it gets the majority of its energy from the glycogen that's stored in
the muscles and liver and the glucose in your blood. So the main advantage of this anaerobic
system is that it can produce a lot of energy for about two minutes before it starts to peter out.
And the main downside is that it produces a lot of metabolic byproducts that quickly build up in
the blood and the muscles. And these waste products cause fatigue. And especially after
the system has been running full bore for
a couple of minutes. Now, the anaerobic system is particularly relevant to weightlifting because
most of the work that you do in sets, and let's say the range of 8 to 12 reps, are going to be
powered by this anaerobic system. And this is also true for most forms of high intensity interval training, where you
alternate between bouts of sprinting and rest, and especially if the sprints are lasting longer than
20 seconds or so. Now, as far as improving your body's anaerobic system, the function of it,
the best way to do that is simply to do a lot of anaerobic type exercise, which is not surprising,
do a lot of anaerobic type exercise, which is not surprising, of course. The more demands you place on that energy system, the more the body is going to augment it to meet those demands. And especially
if you are continually pushing the envelope through, let's say, progressive overload in your
training. So your training is progressively getting a bit harder on the body. And one of the ways it's
going to adapt is to strengthen the primary energy
system that is powering that training. Okay, so we have intense physical activity going on for
more than a couple of minutes. What happens next? Well, after a minute or two of continuous,
vigorous physical activity, the body's aerobic system kicks in and takes over the function of producing a
bunch of ATP for the muscles. So we can keep on doing whatever it is that we're doing, exercising,
or again, just doing anything that is very physically demanding. Now, this system is also
called the oxidative or the respiratory system because it uses oxygen. It involves oxygen to create the
ATP. Now, it takes a few minutes for this system to really get into high gear, but once it is going,
once it is firing on all cylinders, a big advantage is it can produce a lot of ATP very
efficiently for a long time. And how it does that is it uses
a combination of glucose, glycogen, and body fat to create ATP with the exact ratio depending on
how intense the exercise is. So as workout intensity rises, the aerobic system uses more
and more glucose and glycogen to produce the ATP and less body fat. And as the workout
intensity falls, the aerobic system is going to use more and more body fat and less and less
glucose and glycogen. And this, by the way, is why many people believe that low-intensity cardio
is better or even best for fat loss and certainly more effective than high-intensity cardio,
some people will say, because this low intensity
cardio burns a greater percentage of calories from body fat. Now, I spoke about this in my last Q&A
I posted, I believe, so I won't get into all the details again here, but what these people are
missing is that higher intensity cardio burns a lot more total calories, which is really what drives long-term
fat loss. So while that high intensity interval workout did burn fewer calories from fat in terms
of a percentage than maybe a walk, it also burned a lot more total calories, which resulted in more
total fat loss. So this is simply an instance of missing the forest for
the trees, right? Anyway, because the aerobic system can create a lot of ATP from body fat,
that means that it can go for a long time, like hours on end, because we all have a fair amount
of body fat. Even the lean among us still have a fair amount of body fat that can be used for energy.
Body fat is very energy dense. It contains about three to four thousand calories worth of energy
per pound. And to put that in perspective, you'll burn, let's say, six to seven hundred calories
per hour of moderately intense cycling and probably around 400 calories per hour of higher intensity
weightlifting, the kind of stuff that you and I probably do. And so if you look at those numbers,
you quickly realize that we are carrying around a lot of energy in the form of body fat. So take me,
I weigh 188 pounds right now. I am about 8% body fat, so I'm quite lean, which means I have
about 15 pounds of fat on my body, which doesn't sound like that much, but it represents about
53,000 calories, which is enough energy to get through about 70 hours of continuous biking or
about double that in hours of intense weightlifting. Now, of course,
I would die before I would reach 0% body fat. You actually can't get to 0% without dying,
probably die around 2% to 3% as a man. But my point is just to give you an idea of how
energy-dense body fat is. And this is why, for example, you might have heard of case studies
out there of people with a lot of body fat who did not eat food for a very long time. And they
were given nutrients intravenously and they were given water, but no food for a long time. And
there were no health problems and they just lost a bunch of weight and lost a bunch of
fat. In one case, I remember reading about there was a guy, I believe he started around 400 pounds
and he worked with a doctor. So this was medically supervised. He didn't eat food for an entire year.
This was a year long fast. They gave him the basic nutrients, the essential vitamins and minerals and the things
that he needed to stay alive, water, of course, but no food for a year. And in that year, he lost
about 200 pounds. He cut his body weight in half and he was much healthier than when he started
because being extremely obese like that is extremely unhealthy. And that might sound wild, but when
you think about how much energy is in, let's say 170 pounds of fat, because there's going to be
some water and glycogen and other tissues that he's going to have lost throughout that year,
not all going to be body fat, but let's say it was 150, 170 pounds of body fat.
body fat, but let's say it was 150, 170 pounds of body fat. Well, we know that my 15 pounds of fat would allow me to bike for about 70 hours straight before I will have run out of body fat. That guy
had 10 times the amount or maybe even a little more than that. And he wasn't doing much in the
way of exercise, of course, because he wouldn't have had much energy and it wouldn't have gone very well.
So it was mostly just basic movement that is required to stay alive and go about his
day-to-day life, which of course does not burn that many calories.
Anyway, to get back to the aerobic system, something else that is worth noting is some
low-carb advocates have misconstrued what we are talking about in this
podcast and have come to the conclusion that since the aerobic system can use fat for energy,
eating carbs isn't going to improve your endurance performance, your performance on a run or bike or
swim or so forth. And that is not true. It's not that simple because while the aerobic system
does allow you to exercise for hours at a time without eating any carbs, it only works if you
keep your intensity around 60% of your maximum. If your exercise intensity exceeds about a six
on a scale from one to 10, your body is going to need glucose to continue going.
And if your glycogen stores are low, then you are going to be severely limited in how much you'll be
able to do at that higher intensity level. And the only effective way to keep glycogen levels high
in the body is to eat carbs. Now let's bring all of this together in the context of weight
lifting, which is probably what you care the most about. That's what I care the most about. I do
cardio because, well, I do enjoy it to some degree. And of course it burns calories and it provides
health benefits that weightlifting does not provide. And if you want to learn more about
that point specifically, check out a podcast I
posted probably about a month ago on it called, Should You Do Cardio If You Lift Weights? Science
says yes, and you can learn all about that. You should be doing some cardio every week in addition
to your weightlifting if you want to maximize your health and possibly your performance in
your weightlifting as well,
which brings me to this last point I want to make regarding how these different energy systems
relate to your weightlifting. If you like what I'm doing here on the podcast and elsewhere,
definitely check out my health and fitness books, including the number one bestselling
weightlifting books
for men and women in the world, Bigger Leaner Stronger and Thinner Leaner Stronger, as well
as the leading flexible dieting cookbook, The Shredded Chef. So as I mentioned earlier, when
you are in the gym training, you're probably training fairly intensely. And most of that
is going to be powered by the phosphocreatine system and the anaerobic system. But between your sets, when you're resting and
you're catching your breath, your body is going to be working to regenerate ATP before your next
set, and it's going to primarily rely on the aerobic system for that. And so what you want
then is you want, of course, your phosphocreatine and your anaerobic systems to be able to work as efficiently as possible.
But if you want to recover faster and to regenerate more ATP in the time that you are resting in between your sets, then you also want to have a strong aerobic system. Now, as for strengthening your phosphocreatine and anaerobic systems, the best way to do that
is to train in a variety of rep ranges, to periodize your training in a way where your
muscles are regularly exposed to different rep ranges. So for example, in my program for
intermediate and advanced weightlifters beyond Bigger Leaner Strong stronger on the big compound exercises, you are working with weights ranging
from about 95% of your one rep max to about 70% of your one rep max. And in terms of reps at 95%,
you may only do two to probably at most four reps because when you are using 95% of your one rep max, you are actually doing an
AMRAP set. So as many reps as possible, and you're doing that at the end of a training block to see
if you've gained strength in that training block. But as the weight is very heavy, you're probably
not going to get more than four reps max five. You are certainly not going to be getting eight,
nine reps with what is truly 95% of what was your one rep max at the beginning of a macro cycle.
At least I'd say it's very unlikely. As effective as the program is, it is not going to be that
effective for most people. And then in the case of 70% of one rep max, when you have 70% on the bar,
the program is going to have you do sets of 10. And with isolation exercises, the periodization
is similar, but the top of the rep ranges that you work in is a little bit higher. So with isolation
or what I call accessory exercises in the book, you are going to be doing sets of 10 to 12 reps.
Those are going to be your highest rep sets throughout a macro cycle, and the weights will
get heavier. And you will also be working
in the rep range of six to eight reps later in a training cycle. Now, there are several reasons why
I think it makes sense to program like this when you are no longer a newbie, when you are now
fighting for what's probably your last 30% or so of muscle and strength that is genetically available to you.
But as we are talking about energy systems in particular, one of the benefits of training like
this is it provides plenty of stimulation for both the phosphocreatine and the anaerobic systems.
And as those systems become more robust, the better your performance will be in the gym.
I should note, however, though, that if you are new to proper weightlifting, so let's say if
you're a guy who has yet to gain his first 20, maybe 25 pounds of muscle since beginning, no
matter how long ago you started lifting weights, or if you're a woman who has yet to gain maybe
her first seven or eight pounds of muscle, you don't have to program your training like that.
You don't have to periodize it the way that I've just described.
You can train in a much simpler, more straightforward manner.
And the books I would refer you to are Bigger, Leaner, Stronger if you're a guy and Thinner,
Leaner, Stronger if you are a gal.
Stick with those programs and you will gain all the muscle and
strength that you can up until the point where those programs become more of a maintenance
routine. And at that point, it makes sense to switch to the Beyond Bigger, Leaner, Stronger
program if you're a guy. And I do plan on creating a female version of that book, which will be,
of course, Beyond Thinner, Leaner, Stronger. But until that book is done and out, if you're a woman, you can read the men's book and a lot of it will be
directly applicable to what you're doing. However, you will need some help minimally with updating
the workout programming because it will probably have more upper body volume than you would like.
And you'd probably like to take some of the volume out of the upper body and put it into the lower body. And I can help you do that. If you just email me,
mikeatmulsifullife.com, I will help you do just that. Okay. So that is really it as far as
optimizing your phosphocreatine and anaerobic systems. You just got to work hard at it.
Unfortunately, there are no biohacks or pills, powders, or potions that can do it for
you. As far as the aerobic system goes, just do some cardio, of course. And if you do, what you
will probably find is within several weeks of adding cardio to your routine, if you are not
currently doing it, you will recover a bit faster in between your sets. And you might even notice
an increase in performance
because what might happen is you are currently resting however long you're resting in between
sets. You add cardio in your routine, you still only rest, let's say it's two minutes in between
the sets of isolation exercises, for example. And in those two minutes, previously your body was
able to create this much ATP. Now,
however, because your aerobic system is more robust, it is able to create a bit more in that
two minutes, which then manifests as better performance. Now, as for how much cardio you
should be doing, here's a good place to start. Start with two or three low intensity cardio workouts, about 30 minutes a piece. Do
something that is a low impact, walking, cycling, swimming. And by low intensity, I mean you should
be able to carry on a conversation while you're doing it. Maybe you have to catch your breath
here and there, but if you are having to catch your breath fairly often, that's now moderate
intensity. So again, you should be able to carry on a
conversation without really any effort at the low intensity band. Now you can also do one or two
high intensity interval cardio workouts per week if you really want to maximize the effectiveness
of your aerobic energy system. Now, if you're going to do that, I would say
keep those sessions at no more than let's say 25 to 30 minutes. And if you're lean bulking,
you can drop the high intensity out if you are afraid that it's going to cut into your progress
in the gym. And there is an argument that can be made for that. Again, if you want to get into these details
more thoroughly, then check out that podcast that I recorded on why you should do cardio in addition
to your weightlifting. But just to keep it simple here, let's say one or two HIIT cardio workouts
per week, no more than 25 or 30 minutes per session. And I would say don't do more than three and do low impact cardio.
If you go and sprint on concrete, for example, you are going to beat up your lower body. And
what you will almost certainly find is your squats and your deadlifts suffer. I remember
probably about eight years ago now, I was doing sprints, not on concrete, but at that time I was living on the
beach and there was a boardwalk that would run along the condo that I lived in and I would run
on that. So it wasn't wood. It was probably, I don't know, some sort of plastic that looked like
wood. However, I just couldn't recover from what was only, I think I was doing two max three sprint sessions per week,
15 to 20 minutes or so of sprints. I would run about, I think maybe 80 to a hundred yards and
then rest a couple of minutes, rinse and repeat. And what I found is, and so at that time I was
like 28 and I was sleeping perfectly and eating perfectly. I was as invincible as I could possibly
be. And I still just couldn't recover, especially
my hip flexors. They were always kind of sore and that would get in the way of my squatting
and my quads and hamstrings. I could feel the soreness when I would start to squat or deadlift
and it would take extra warmups just to feel up to any sort of intensity on those exercises.
And that was also when I was in a calorie surplus as well.
So just keep that in mind with high intensity cardio is if there's any impact, it produces a
lot of muscle damage that your body has to recover from. And if you're also training intensely in the
gym, it's probably going to be too much. And even if it is not a high impact activity like cycling, which would be my personal choice
if I were to be doing HIIT cardio these days, but you can also row, elliptical is good for
that.
Swimming is good for that.
Still though, that high intensity cardio puts a lot more recovery demands on the body than
lower intensity cardio.
And so if you're cutting, for example, you just want to maximize
fat loss, you know you're not going to be gaining any muscle and strength. You're just trying to
preserve the muscle you have and hopefully most of the strength you have. Then it can make sense to
add some hit into your routine because you're going to burn a lot of calories. You are going
to burn fat faster. And so long as you don't do too much, you don't do too much cardio,
you are not going to cause any degradation in your body
composition. However, if you are lean bulking, you might want to leave it out because you are
really trying to just maximize your performance in your weightlifting. And although adding the
HIIT in will probably help you develop a slightly stronger aerobic system, there's going to be a trade-off there.
And if it's me, I would leave the hit out and I would just do low slash moderate intensity cardio
to train my aerobic system. All right. Well, that's it for this episode. I hope you found
it helpful. And if you would like to let me know what you thought, shoot me an email,
mikeatmusclelife.com and share any and all feedback you might have about this episode or the podcast in general, or let me know if you have ideas for
future episodes. And speaking of future episodes, here's what I have coming next for you. I have
a says you episode coming in a couple of days where I'm going to be talking about the mind
muscle connection and slow rep training,
as well as resting in between sets. How long should you be resting? Is three to four minutes
too long? It definitely feels too long, according to David E. Barraza, as well as my thoughts on
why chasing money and success is not a waste of life. And then the following week, I'll be posting a new
book club episode on a book called The Lost Tools of Learning and a new interview with the director
of research and development of my sports nutrition company, Legion, about how we go about creating
formulations and more. So if any of that got your attention, definitely keep an eye
on the Muscle for Life feed. All right, well, that's it for this episode. I hope you enjoyed
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