Essentials: How to Build Endurance

Speaker 1 Welcome to Huberman Lab Essentials, where we revisit past episodes for the most potent and actionable science-based tools for mental health, physical health, and performance.

Speaker 1 I'm Andrew Huberman, and I'm a professor of neurobiology and ophthalmology at Stanford School of Medicine. This podcast is separate from my teaching and research roles at Stanford.

Speaker 1 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.

Speaker 1 Today, I'd like to talk about endurance and how to build endurance and how to use endurance for the health of your entire body.

Speaker 1 Endurance, as the name suggests, is our ability to engage in continuous bouts of exercise or continuous movement or continuous effort of any kind.

Speaker 1 It is clear that cardiovascular exercise Exercise where you're getting your heart rate up continuously for a period of time is vital for tapping into and and enhancing various aspects of our biology in the body and in the brain such that our brain can perform work for longer periods of time, focused work, learning, et cetera.

Speaker 1 The key thing to understand about energy production in the body is this thing that we call ATP.

Speaker 1 ATP is required for anything that requires energy, for anything that you do that requires effort. So our muscles and our neurons use different fuel sources to generate ATP.

Speaker 1 The ones that are used first for short bouts of intense activity are things like phosphocreatine.

Speaker 1 If you've only heard about creatine as a supplement, well, phosphocreatine actually exists on our muscles, and that's why people take creatine. You can load your muscles with more creatine.

Speaker 1 Phosphocreatine is great for short, intense bouts of effort. Then you start to tap into things like glucose, which is literally just carbohydrate, just sugar that's in your blood.

Speaker 1 And then if you keep pushing, you start to tap into other fuel sources like glycogen. And you have fats stored in adipose tissue.

Speaker 1 Even if you have very, very low body fat percentage, you can extract lipids, fatty acids from that body fat. It's like a storage pack.
It is a storage pack for energy that can be converted to ATP.

Speaker 1 Without going into any more detail, when I say today energy or I say ATP, just remember that regardless of your diet, regardless of your nutritional plan, your body has the capacity to use creatine, glucose, glycogen, lipids, and if you're ketogenic, ketones in order to generate fuel, energy.

Speaker 1 Now, the other crucial point is that in order to complete that process of taking these fuels and converting them into energy,

Speaker 1 most of the time

Speaker 1 you need oxygen. You need air, basically, in your system.
Now, it's not actual air. You need oxygen molecules in your system.

Speaker 1 It comes in through your mouth and your nose, goes to your lungs, and distributes via the bloodstream. Oxygen is not a fuel, but like a fire that has no oxygen, you can't actually burn the logs.

Speaker 1 But when you blow a lot of oxygen onto a fire, basically onto logs with a flame there, then basically it will take fire, it will take fire, it will burn. Okay, oxygen allows you to burn fuel.

Speaker 1 So today we are going to ask the critical questions.

Speaker 1 What allows us to perform? What allows us to continue effort for long periods of time? Well, we think of things like willpower, but what's willpower? Willpower is neurons. It's neurons in our brain.

Speaker 1 We have this thing called the central governor, which decides whether or not we should or could continue or whether or not we should stop, whether or not we should quit.

Speaker 1 So we have to ask the question, what is the limiting factor on performance? What prevents us from enduring? What prevents us from moving forward? What are the factors that say, you know what, no more.

Speaker 1 I'm not going to continue this run. There are five main categories of things that allow us to engage in effort.

Speaker 1 Now, I don't want to completely write off things like the immune system and other systems of the body, but nerve, muscle, blood, heart, and lungs are the five that I want to focus on today because that's where most of the data are.

Speaker 1 Let's talk about neurons and how they work, okay? But I want to tell you about an experiment that's going to make it very clear why quitting is a mental thing, not a physical thing.

Speaker 1 So, why do we quit? Well, an experiment was done a couple years ago and was published in the journal Cell, Cell Press Journal, excellent journal, showing that there's a class of neurons

Speaker 1 in our brainstem, in the back of our brain, that

Speaker 1 if they shut off, we quit.

Speaker 1 Now,

Speaker 1 these neurons

Speaker 1 release epinephrine. Epinephrine is adrenaline.
And anytime we are engaged in effort of any kind, we are releasing epinephrine.

Speaker 1 Anytime we're awake, really, we are releasing epinephrine into our brain.

Speaker 1 In fact,

Speaker 1 This little group of neurons in the back of our brain, it's called the locus ceruleus, if you like, is churning out epinephrine all the time.

Speaker 1 But if something stresses us out, it churns out more, and then it acts as kind of an alertness signal for the whole brain.

Speaker 1 We also, of course, have adrenaline epinephrine released in our body, which makes our body ready for things. So, think about epinephrine as a readiness signal.

Speaker 1 And when we are engaged in effort, this readiness signal is being churned into our brain. When we're relaxed and we're falling asleep, epinephrine levels are low.
So, our

Speaker 1 desire to continue, or put differently, our willingness to continue and our desire to quit is mediated by events between our two ears.

Speaker 1 Now, that doesn't mean that the body's not involved, but it means that neurons are critically important.

Speaker 1 So, we have two categories of neurons that are important, the ones in our head that tell us get up and go out and take that run, and the ones that allow us, encourage us to continue that run, and we have neurons that shut things off and say no more.

Speaker 1 And we, of course, have the neurons that connect to our muscles and control our muscles. But But the reason we quit is rarely because our body quits, our mind quits.

Speaker 1 So when people say, is it, I hear that, you know, sports or effort or fighting or it's 90% mental, 10% physical, that whole discussion about how much is mental, how much is physical is absolutely silly.

Speaker 1 It's 100% nervous system. It's neurons.
Okay?

Speaker 1 So when people say mental or physical, understand it's 100% neural. Now, what do nerves need in order to continue to fire? What do you need in order to get neurons to say, I will persist?

Speaker 1 Well, they need glucose. Unless you're keto and ketogenic adapted, you need carbohydrate, is glucose.
That's what neurons run on.

Speaker 1 And you need electrolytes. Neurons have what's called a sodium-potassium pump, blah, blah, blah.
They generate electricity. In order to get

Speaker 1 nerve cells to fire, to contract muscle, to say, I'm going to continue, you need sufficient sodium salt because the action potential, the actual firing of neurons, is driven by sodium entering the cell, rushing into the cell.

Speaker 1 And then there's a removal of potassium, and then there's a kind of resetting of those levels by something called the sodium-potassium pump.

Speaker 1 And the sodium-potassium pump and sodium and action potentials, even if you don't know anything about that, is ATP dependent. It requires energy.
So you need energy in order to get neurons to fire.

Speaker 1 And it is pH-dependent. It depends on the conditions or the environment within the brain being of a certain pH or acidity.
pH is about how acid or how basic the environment is.

Speaker 1 Nerves need salt, they need potassium, and it turns out they need magnesium, and you need glucose and carbohydrates in order to power those neurons unless you are running on ketones. Muscle.

Speaker 1 Muscle is going to engage and generate energy first by using this phosphocreatine system.

Speaker 1 High bouts of effort, really intense effort, short-lived seconds to minutes, but probably more like seconds is going to be this phosphocreatine, literally a fuel source in the muscle that you're going to burn, just like you would logs on a fire.

Speaker 1 And glycogen, which is stored carbohydrate in the muscle, they're converting that into ATP in order to generate that energy. And then there's stuff in our blood that's available as an energy source.

Speaker 1 And in blood, we've got glucose, so literally blood sugar that's floating around. So let's say you have fasted for three days, your blood glucose is going to be very low.

Speaker 1 So that's not going to be a great fuel source. But you will start to liberate fats from your adipose tissue, from your fat.

Speaker 1 Fatty acids will start to mobilize into the bloodstream, and you can burn those for energy. Now, there are some other factors that are important, and those are the heart, which is going to move blood.

Speaker 1 So the more that the heart can move blood and oxygen, well, the more fuel that's going to be available for you to engage in muscular effort and thinking effort.

Speaker 1 And

Speaker 1 as I've mentioned, oxygen a few times, it should be obvious then that the lungs are very important.

Speaker 1 You need to bring oxygen in and distribute it to all these tissues because oxygen is critical for the conversion of carbohydrates and the conversion of fats.

Speaker 1 So, when we ask the question, what's limiting for performance?

Speaker 1 What is going to allow us to endure, to engage in effort and endure long bouts of effort, or even moderately long bouts of effort?

Speaker 1 We need to ask which of those things, nerve, muscle, blood, heart, and lungs, is limiting. Or, put differently, we ask, what should we be doing with our neurons?

Speaker 1 What should we be doing with our muscles? What should we be doing with our blood? What should we be doing with our heart?

Speaker 1 And what should we be doing with our lungs that's going to allow us to build endurance for mental and physical work and to be able to go longer,

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Speaker 1 So, let's talk about the four kinds of endurance and how to achieve those. So, first of all, we have muscular endurance.
Muscular endurance is the ability for our muscles to perform work over time,

Speaker 1 and our failure to continue to be able to perform that work is going to be due to muscular fatigue, not to cardiovascular fatigue.

Speaker 1 So, not because we're breathing too hard or we can't get enough blood to the muscles or because we quit mentally, but because the muscles themselves give out.

Speaker 1 Okay?

Speaker 1 One good example of this would be if you you had to pick up a stone in the yard, and that stone is not extremely heavy for you, and you needed to do that anywhere from 50 to 100 times, and you were picking it up and putting it down, and picking it up and putting it down, and picking it up and putting it down.

Speaker 1 At some point, your muscles will fatigue. Muscular endurance is going to be something that you can

Speaker 1 perform for anywhere from 12 to 25 or even up to 100 repetitions. So a good example is push-ups.
It's actually no coincidence that a lot of military boot camp-style training is not done with weights.

Speaker 1 It's done with things like push-ups, pull-ups, sit-ups, and running.

Speaker 1 Because what they're really building is muscular endurance, the ability to perform work repeatedly over time for a given set of muscles and neurons.

Speaker 1 So a really good muscular endurance training protocol, according to the scientific literature, would be three to five sets of anywhere from 12 to 100 repetitions. That's a huge range.

Speaker 1 Now, 12 to 25 repetitions is going to be more

Speaker 1 reasonable for most people.

Speaker 1 And the rest periods are going to be anywhere from 30 to 180 seconds of rest. So anywhere from half a minute to three minutes of rest.

Speaker 1 The one critical feature of building muscular endurance is that it has no major eccentric loading component.

Speaker 1 I haven't talked much about eccentric and concentric loading, but concentric loading is when you are shortening the muscle, typically, or lifting a weight, and eccentric movements are when you are lengthening a muscle, typically, or lowering a weight.

Speaker 1 So if you do a pull-up and you get your chin over the bar or a chin up, that's the concentric portion of the effort. And then as you lower yourself, that's the eccentric portion.

Speaker 1 Eccentric portion of resistance training of any kind, whether or not it's for endurance or for strength, is one of the major causes of soreness. Some people will be more susceptible

Speaker 1 to this

Speaker 1 than others, but it does create more damage in muscle fibers. Muscular endurance and building muscular endurance should not include any movements that include major eccentric loads.

Speaker 1 So if you're going to do push-ups, it doesn't mean that you want to drop, you know, smash your chest into the floor. And by the way, your chest should touch the ground on every push-up.

Speaker 1 That's a real push-up. It's about pushing down till your chest touches the floor and straightening out.
That's a proper push-up. And a pull-up is where you pull your chin above the bar.

Speaker 1 Neither of those should include a slow, eccentric, or lowering component.

Speaker 1 If you are using those to train muscular endurance, the three to five sets of 12 to 25 and maybe even up to 100 repetitions with 30 to 180 seconds of rest in between.

Speaker 1 But if you want to build muscular endurance, you want to make your muscles able to do more work for longer, it's going to be this three to five sets of 12 to 100 reps, 30 to 180 seconds, of mainly concentric movement, okay, not a slow lowering phase or a heavy lowering phase.

Speaker 1 So that might be kettlebell swings and things of that sort. Isometrics, as I mentioned, things like plank and wall sits will work.

Speaker 1 Now, what's interesting about this is that it doesn't seem at all like what people normally think of as as endurance.

Speaker 1 And yet it's been shown in nice quality peer-reviewed studies that muscular endurance can improve our ability to engage in long bouts of what we call long-duration, low-intensity endurance work.

Speaker 1 So this can support long runs, it can support long swims, and it can build also,

Speaker 1 it can build postural strength and endurance simultaneously. So now let's talk about the science briefly of why this works.
Well, that takes us back to this issue of fuel utilization and what fails.

Speaker 1 So if we were to say, okay, let's say you do a plank and you're planking for, you know, maybe you're able to plank for a minute or two minutes or three minutes. At some point you will fail.

Speaker 1 You're not going to fail because the heart gives out. You're not going to fail because you can't get enough oxygen because you can breathe while you're doing that.

Speaker 1 You're going to fail because of local muscular failure, which means that as you do, if you choose, to do this protocol of three to five sets, et cetera, et cetera, to build muscular endurance, mainly what you are going to be building is you're going to be building the ability of your mitochondria to use oxygen to generate energy locally.

Speaker 1 And that it's something called mitochondrial respiration, respiration because of the involvement of oxygen.

Speaker 1 And it's also going to be increasing the extent to which the neurons control the muscles and provide a stimulus for the muscles to contract. But this is independent of power and strength.

Speaker 1 Okay, so even though the low sets, like three to five sets, and the fact that you're doing repetitions and you're going to failure, even though it seems to resemble power and strength and hypertrophy type training, it is distinctly different.

Speaker 1 It's not going to generate strength, hypertrophy, and power. It's going to mainly create this ability to endure, to continually contract muscles or repeatedly contract muscles.

Speaker 1 Okay, continually if you're using isometric holds,

Speaker 1 repeatedly, excuse me, if you're using repetition type exercise where there's a

Speaker 1 contraction and an extension of the muscle, essentially

Speaker 1 concentric and an eccentric portion. But remember that you want the eccentric portion to be light and relatively fast, not so fast that you injure yourself, but certainly not deliberately slowed down.

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Speaker 1 Again, that's 8Sleep.com slash Huberman to save up to $350 off your Pod4 Ultra. So now let's talk about the other extreme of endurance, which is long-duration endurance.

Speaker 1 This is the type that people typically think about when they think about endurance. You're talking about a long run, a long swim, a long bike ride.
Well, how long?

Speaker 1 Well, anywhere from 12 minutes to several hours, or maybe even an entire day, maybe eight or nine hours of hiking or running or biking.

Speaker 1 Some people are actually doing those kinds of really long events, marathons, for instance.

Speaker 1 You're getting into regular repeated effort, and your ability to continue that effort is going to be dependent mainly on the efficiency of the movement, on your ability to strike a balance between

Speaker 1 the movement itself, the generation of the muscular movements that are required, and fuel utilization across the different sources of nerve, muscle, blood, heart, and lungs.

Speaker 1 So let's ask the question, why would you fail on a long run? Why would you quit?

Speaker 1 Well, your mind is going to use more or less energy depending on how much willpower, how much of a fight you have to get into with yourself in order to generate the effort.

Speaker 1 I really want to underscore this. Willpower, in part, is the ability to devote resources to things, and part of that is making decisions to just either do it or not do it.

Speaker 1 I'm not of the just do-it-mindset. I think there's a right time and a place to train, but I also think that it is not good.

Speaker 1 In other words, it utilizes excessive resources to churn over decisions excessively.

Speaker 1 And you probably burn as much cognitive energy deciding about whether or not to do a given training or not as you do in the actual training.

Speaker 1 When you go out for a run that's 30 minutes, you are building the capacity to repeat that performance the next time while being more efficient, actually burning less fuel.

Speaker 1 And that might seem a little bit counterintuitive, but every time you do that, run, what you're doing is you're building up mitochondrial density.

Speaker 1 It's not so much about mitochondrial oxidation and respiration. You're building up mitochondrial density.
You're actually increasing the amount of ATP that you can create for a given bout of effort.

Speaker 1 You're becoming more efficient. Okay, you're burning less fuel overall, doing the same thing.
That's really what these long, slow distance, or long bouts of effort are really all about.

Speaker 1 Now, why do this long-duration effort? Why would you want to do it? Why is it good for you? Well, it does something very important, which is that it builds the capillary beds within muscles.

Speaker 1 So these are tiny little avenues, like little tiny streams and estuaries between the bigger arteries and veins. You can literally build new capillaries.

Speaker 1 You can create new little streams within your muscles. And the type of long-duration effort that I was talking about before, 12 minutes or more of steady effort,

Speaker 1 is very useful for doing that and is very useful for increasing the mitochondria, the energy-producing elements of the cells, the actual muscle cells.

Speaker 1 And the reason is when

Speaker 1 blood arrives to muscles, it has oxygen. The muscles are going to use some of that oxygen, and then some of the deoxygenated blood is going to be sent back to the heart and to the lungs.

Speaker 1 Now, the more capillaries that you build into those muscles, the more oxygen available to those muscles.

Speaker 1 So, this long-duration work, unlike muscular endurance like planks and everything that we were talking about before, is really about building the capillary systems and the mitochondria, the energy utilization systems within the muscles themselves.

Speaker 1 And then, there are two kinds in between

Speaker 1 that in recent years have gotten a lot of attention and excitement, sometimes called high-intensity interval training.

Speaker 1 One is anaerobic, so-called anaerobic endurance, so no oxygen, and the other is aerobic endurance, both of which qualify as HIIT, high-intensity interval training.

Speaker 1 So let's talk about anaerobic endurance first.

Speaker 1 Anaerobic endurance from a protocol perspective is going to be three to twelve sets, okay?

Speaker 1 And these are going to be performed at whatever speed allows you to complete the work in good, safe form. Okay, so it could be fast, could be slow.

Speaker 1 As the work continues, your repetitions may slow down or it may speed up. Chances are it's going to slow down.
So, what is this work? What do these sets look like?

Speaker 1 Remember, long, slow distance is one set, muscular endurance is three to five sets. High-intensity anaerobic endurance is going to be somewhere between three and twelve sets,

Speaker 1 and it's going to have a ratio of work to rest of anywhere from three to one to one to five. Okay, so what would a three to one

Speaker 1 ratio set look like? Well, it's going to be 30 seconds of hard pedaling on the bike, for instance, or running, or on the rower. These are just examples.
It could be in the pool swimming.

Speaker 1 It could be any number of things or air squats or, you know, or weighted squats, if you will, provided you can manage that. 30 seconds on, 10 seconds off.
That's a very brief rest.

Speaker 1 So three to one is just a good example would be 30 seconds on, 10 seconds off.

Speaker 1 The opposite extreme on that ratio would be 1 to 5. So 20 seconds on, 100 seconds off.
So you do the work for 20 seconds, then you rest 100 seconds.

Speaker 1 So let's just take a look at the three to one ratio.

Speaker 1 So in the three to one ratio, if you're going to do 30 seconds of hard pedaling on a bike followed by 10 seconds, so maybe one of these what they call assault bikes, and then you stop for 10 seconds and then repeat, chances are you will be able to do

Speaker 1 one,

Speaker 1 two,

Speaker 1 three, four maybe even as many as 12 sets if you're really in good condition that you'll be able to do all those because pedaling on the bike doesn't require a ton of skill and if you do it incorrectly if your elbow flares out a little bit or something it's very unlikely that you'll get injured unless it's really extreme okay but the same movement done for instance with kettlebells so 30 seconds on 10 seconds off

Speaker 1 The first set will probably be in good form. The second one will be in pretty good form.
But let's say you're getting to the fifth and sixth set and you're going 30 seconds on, 10 seconds off.

Speaker 1 Chances are the quality of your repetitions will degrade significantly and you increase the probability that you're going to get injured.

Speaker 1 If quality of form is important, so maybe this is using weights, maybe you're doing squats, you're going to do 20 seconds on and 100 seconds of rest.

Speaker 1 What you'll find is that the longer rest, even though it's 20 seconds of intense effort followed by a longer rest of about 100 seconds, will allow you to perform more quality repetitions safely over time.

Speaker 1 So it might be three sets of 20 seconds of hard effort followed by 100 seconds rest. Then you repeat 20 seconds of hard effort, 100 seconds rest, 20 seconds of effort, 100 seconds rest.

Speaker 1 And you might do that twice a week. In doing that, you will build up what we call anaerobic endurance.
Anaerobic endurance is going to be taking your system into greater than 100% of your VO2 max.

Speaker 1 It's going to be taking your heart rate up very high,

Speaker 1 and it's going to maximize your oxygen utilization systems. That is going to have effects that are going to lead to fatigue at some point in the workout, and that fatigue will trigger an adaptation.

Speaker 1 So, let's ask what adaptation it's triggering. Well,

Speaker 1 it's triggering both mitochondrial respiration, the ability of your mitochondria to generate more energy by using more oxygen because you're bringing so much, you're maxing out, literally, you're getting above your VO2 max.

Speaker 1 You're hitting that threshold of how much oxygen you can use in your system. One of the adaptations will be that your mitochondria will shift such that they can use more oxygen.

Speaker 1 And you're going to also increase the capillary beds, but not as much as you're going to be able to increase the amount of neuron engagement of muscle.

Speaker 1 So normally when we start to hit fatigue, when we're exhausted, when we're breathing really hard, because the systems of the body are linked and there's a mental component to this as well, a kind of motivational component, after that third or fourth or sixth set of, you know, 20 seconds on, 100 seconds off, or if you're at the other extreme, 30 seconds on and 10 seconds off, there's going to be a component of you want to stop and by pushing through and repeating another set safely, of course.

Speaker 1 What you're doing is you are... training the neurons to be able to access more energy, literally, convert that into ATP, and for the muscles, therefore, to access more energy and ATP.

Speaker 1 And the adaptation is in the mitochondria's ability to use oxygen. And this has tremendous carryover effects for other types of exercise.

Speaker 1 This can be beneficial in competitive sports or team sports where there's a sprinting component, where the field opens up and you need to dribble the ball down the field, for instance, and shoot on goal, or where you're playing tennis and it's a long rally and then all of a sudden somebody really starts putting you back on your heels and you have to really make the maximum amount of effort to run to the net and to get the ball across the net.

Speaker 1 Things of that sort. Okay,

Speaker 1 there are a variety of places where there's carryover from this type of training, but it does support endurance. It's about muscle endurance.

Speaker 1 It's about these muscles' ability to generate a lot of force in the short term, but repeatedly. Okay, so that's the way to conceptualize this.
And it is different than maximum power.

Speaker 1 Even though it feels like maximum effort, it is not the same as building power and speed into muscles. Those are distinctly distinctly different protocols.

Speaker 1 So the key elements, again, are that you're bringing your breathing and your oxygen utilization way up above your max.

Speaker 1 It's not quite hitting failure, but you're really pushing the system to the point where you are not ready to do another set and yet you begin another set. You're not necessarily psychologically ready.

Speaker 1 I want to make sure I touch on the fourth protocol, which is high-intensity aerobic conditioning. So HIT has these two forms, anaerobic and aerobic.
aerobic, and you just heard about anaerobic.

Speaker 1 High-intensity aerobic conditioning also involves about three to twelve sets. A one-to-one ratio is powerful for building, on average,

Speaker 1 most of the energy systems involving, remember, we have these nerve, muscle, blood, heart, and lungs.

Speaker 1 A one-to-one ratio might be you run a mile, and however long that takes, you might run, first mile is, let's say, seven minutes, then then you rest for seven minutes, then you run a mile again, and it might take eight minutes, and you rest for eight minutes, and you continue that for a total of four miles of work, four miles of running work, I should say.

Speaker 1 You can build this up.

Speaker 1 Many people find that using this type of training allows them to do things like go run half marathons and marathons, even though prior to the race date, they've never actually run a half marathon or marathon.

Speaker 1 Now, that might seem incredible. It's like, how could it be that running a mile on and and then

Speaker 1 running a mile and then resting for an equivalent amount of time, running a mile, resting for an equivalent amount of time for seven miles allows you to run continuously for 13 miles or for 26 miles?

Speaker 1 It improves ATP and mitochondrial function in muscle. It allows the blood to deliver more oxygen to the muscle and to your brain.
And it allows your heart to deliver more oxygen overall.

Speaker 1 And it builds a tremendous lung capacity. So what would this look like and when should you do this?

Speaker 1 Well, it's really a question for these workouts of asking how much work can one do in eight to 12 minutes, right? And then rest and then repeat.

Speaker 1 How much work can you do for eight to 12 minutes, then rest and then repeat? And how many times should you do this? Well, this is the sort of thing, it's pretty intense.

Speaker 1 And so you would probably only want to do this two, maybe three times a week if you're not doing many other things. So we have four kinds of endurance, muscular endurance.

Speaker 1 We have long-duration endurance, we have high-intensity interval training of two kinds: anaerobic and aerobic, and this last type, the aerobic one, works best, it seems, if you kind of do this one-to-one ratio.

Speaker 1 So, how would you use these and what are they actually doing? Let's talk about the heart and the lungs and oxygen, because that's something that we can all benefit from understanding.

Speaker 1 The brain and the heart are probably the two most important systems that you need to take care of in your life.

Speaker 1 Maintaining or enhancing brain function and cardiovascular function, it's absolutely clear, are key for health and longevity in the short and long term.

Speaker 1 And the sorts of training I talked about today has been shown again and again and again to be very useful for enhancing the strength of the mind.

Speaker 1 Yes, I'll talk about that, as well as the health of the brain and the body. I'd like to take a quick break and acknowledge one of our sponsors, Function.

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Speaker 1 So let's talk about the sorts of adaptations that are happening in your brain and body that are so beneficial in these different forms of training.

Speaker 1 If you are breathing hard and your heart is beating hard, so this would be certainly in the high-intensity anaerobic and aerobic conditioning, because you're getting up near your VO2 max in high intensity aerobic conditioning and you're exceeding your VO2 max in high intensity anaerobic conditioning.

Speaker 1 What's going to happen is as of course your heart beats faster, your blood is going to be circulating faster in principle.

Speaker 1 Oxygen utilization in muscles is going to go up

Speaker 1 and over time, not long, very quickly, what will happen when those capillary beds start to expand.

Speaker 1 In addition because of the amount of blood that's being returned to the heart when you engage in these really intense bouts of effort repeatedly

Speaker 1 the amount of blood being returned to the heart actually causes an eccentric loading of one of the muscular walls of the heart so your heart is muscle it's cardiac muscle we have skeletal muscle attached to our bones and we have cardiac muscle which is our heart

Speaker 1 when more blood is being returned to the heart because of the additional work that your muscles and nerves are doing,

Speaker 1 it actually has the effect of creating an eccentric loading, a kind of pushing of the wall, the left.

Speaker 1 I realize I'm not using the strict anatomy here, but I don't want to get into all the features of the structural features of the heart.

Speaker 1 But the left ventricle essentially getting slammed back and then having to push back and a kind of eccentric loading of the cardiac muscle and the muscle thickens as more blood is returned to the heart.

Speaker 1 There's an adaptation where the heart muscle actually gets stronger and therefore can pump more blood per stroke, per beat. And as it does that, it delivers,

Speaker 1 because blood contains glucose and oxygen and other things, it delivers more fuel to your muscles, which allows you to do yet more work per unit time.

Speaker 1 If you do this high intensity type training where your heart is beating very hard, so maybe the one-to-one ratio mile run repeats that I described a minute ago, pretty soon the stroke volume of your heart will really increase.

Speaker 1 And as a consequence, you can deliver more fuel to your muscles and to your brain. Your cognitive functioning will improve.

Speaker 1 This has been shown again and again because there's an increase in vasculature, literally capillary beds within the brain, the hippocampus, areas that support memory, but also areas of the brain that support respiration, that support support focus, that support effort.

Speaker 1 Now, weight training does have some positive effects on brain function also.

Speaker 1 However, it's very clear, and you should now understand intuitively why the kind of standard strength and hypertrophy type workouts are not going to activate the blood oxygenation and the stroke volume increases for the heart that the sorts of training I'm talking about today will.

Speaker 1 It just doesn't have the same positive effects. The other thing that's really important to think about in terms of endurance-type work is hydration.

Speaker 1 And I think hydration is important for all forms of physical work and exercise, not just endurance.

Speaker 1 Typically, we're going to lose anywhere from one to five pounds of water per hour of exercise, and that's going to vary tremendously. It's going to vary on weather.

Speaker 1 It's going to vary on intensity, probably more like five pounds if it's a hot day and you're exercising very intensely.

Speaker 1 So, if you think about your weight in pounds, once you lose about 1 to 4% of your body weight in water, you are going to experience about a 20 to 30 percent reduction in work capacity, in your ability to generate effort of any kind, strength, endurance, etc.

Speaker 1 You are also going to experience a significant drop in your ability to think and perform mental operations. So hydration is key.
Potassium, sodium, and magnesium are really key. Yes, it's true.

Speaker 1 You can die from drinking too much water, in particular because it forces you. If you drink too much water, you'll excrete too many electrolytes and your brain will shut off.

Speaker 1 You'll actually, your heart will stop functioning properly. So you don't want to overconsume water to the extreme either.

Speaker 1 A simple formula, what I call the Galpin equation, which is your body weight in pounds divided by the number 30. And that is how many ounces you should drink for every 15 minutes of exercise.

Speaker 1 Now, if you are sweating a lot, you may need more. If you're already very well hydrated, you may need less.

Speaker 1 But that's a good rule of thumb to begin and to start to understand the relationship between hydration and performance. We didn't talk about supplements much today.

Speaker 1 In the previous episodes, I talked about the phosphocreatine system and supplementing with creatine. I talked about beta-alanine for kind of moderate-duration work.

Speaker 1 You know, really the only things that have been shown to really improve endurance work across the four varieties of endurance work I described today.

Speaker 1 They

Speaker 1 have essentially two forms. One are stimulants, so things like caffeine will definitely improve endurance work and power output.

Speaker 1 Certain forms of magnesium, in particular magnesium malate, M-A-L-A-T-E, have been shown to be useful for

Speaker 1 removing or reducing the amount of delayed onset muscle soreness.

Speaker 1 That form of magnesium is distinctly different than the sorts of magnesium that are good for getting us into sleep, things like magnesium-3 and 8 and biglycinate.

Speaker 1 In general, we focused mainly today on behavioral tools. And I hope I was able to illustrate for you that endurance isn't just one thing.

Speaker 1 It's not just the ability to go for long bouts of exercise of different kinds, that there's also this mental component because of the way that neurons work.

Speaker 1 And also that there are these different forms of endurance, of muscular endurance, where you're going to fail because of the muscles.

Speaker 1 and muscle energy utilization and the nerves that innervate those muscles locally, not because of a failure to bring in oxygen or blood. Whereas long-duration effort, it's going to be more about

Speaker 1 being below your VO2 max and your ability to be efficient for long bouts of more than 12 minutes of exercise, one set, as they say, of 12 minutes to maybe several hours.

Speaker 1 High-intensity training will tap into yet other fuel sources and mechanisms as we learn today. And last but not least, thank you for your interest in science.

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