Huberman Lab - Essentials: Build Muscle Size, Increase Strength & Improve Recovery
Episode Date: April 10, 2025In this Huberman Lab Essentials episode, I discuss how to build muscle strength and size (hypertrophy) and cover key training principles to enhance athletic performance and offset age-related muscle d...ecline. I explain how the nervous system drives muscle movement, the key differences between training for hypertrophy or strength, and resistance training protocols to build muscle for performance and healthy aging. Additionally, I discuss tools for assessing recovery and the role of key nutrients—such as creatine and electrolytes—in supporting muscle development and performance. This episode provides actionable, science-backed strategies to enhance movement, preserve strength with age, and boost energy levels. Read the episode show notes at hubermanlab.com. Timestamps 00:00:00 Huberman Lab Essentials; Muscle 00:02:02 Muscle & Nervous System 00:03:24 Sponsors: Eight Sleep & LMNT 00:06:03 Strength & Aging, Henneman's Size Principle, Use Heavy Weights? 00:10:09 3 Stimuli, Muscle Strength vs Muscle Growth (Hypertrophy) 00:12:11 Tool: Resistance Training Protocol, Increase Muscle Strength 00:15:55 Sponsor: AG1 00:17:50 Tool: Advanced Resistance Training & Volume; Speed, Rest 00:21:12 Testing for Recovery, Heart Rate Variability, Grip Strength 00:24:29 Sponsor: Function 00:26:16 Testing for Recovery, Carbon Dioxide Tolerance 00:29:20 Ice Bath Timing; NSAIDs & Exercise 00:30:34 Salt & Electrolytes; Creatine; Leucine Disclaimer & Disclosures
Transcript
Discussion (0)
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.
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.
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.
Today, I want to talk about something
that is vitally important for not just athletic performance
but for your entire life and indeed for your longevity.
And that's muscle.
And one of the things that's exquisite and fantastic
about the human brain is that it can direct all sorts
of different kinds of movement,
different speeds of movement,
movement of different durations.
All of that is governed by the relationship
between the nervous system, neurons,
and their connections to muscle.
So today, as always,
we're going to talk a little bit of mechanism.
I'm going to explain how neurons control muscle.
We will touch on some nutritional themes
and how that relates to muscle,
in particular, a specific amino acid
that if it's available in your bloodstream
frequently enough and at sufficient levels
can help you build and improve the quality of muscle.
We are also going to talk about recovery.
That's when muscle grows,
that's when muscle gets more flexible.
None of that actually happens during training,
it happens after training.
Most people, when they hear the word muscle,
they just think about strength.
But of course, muscles are involved
in everything that we do.
They are involved in speaking,
they're involved in sitting and standing up.
They're involved in lifting objects, including ourselves.
They are absolutely essential
for maintaining how we breathe.
They're absolutely essential for ambulation, for moving,
and for skills of any kind.
So when we think about muscle,
we don't just want to think about muscle,
the meat that is muscle,
but what controls that muscle.
And no surprise, what controls muscle is the nervous system.
The nervous system does that
through three main nodes of control.
Basically, we have upper motor neurons
in our motor cortex.
So those are in our skull,
and those are involved in deliberate movement. Those upper motor neurons in our motor cortex. So those are in our skull. And those are involved in deliberate movement.
Those upper motor neurons send signals down
to my spinal cord where there are two categories of neurons.
One are the lower motor neurons.
And those lower motor neurons send little wires
that we call axons out to our muscles
and cause those muscles to contract.
They do that by dumping chemicals onto the muscle.
In fact, the chemical is acetylcholine.
Now there's another category of neurons in the spinal cord
called central pattern generators or CPGs.
And those are involved in rhythmic movements.
Anytime we're walking or doing something
where we don't have to think about it to do it deliberately,
it's just happening reflexively
that central pattern generators and motor neurons.
Anytime we're doing something deliberately,
that the top down control as we call it
from the upper motor neurons comes in
and takes control of that system.
So it's really simple.
You've only got three ingredients.
You got the upper motor neurons, the lower motor neurons,
and for rhythmic movements that are reflexive,
you've also got the central pattern generators.
I'd like to take a quick break
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I'd now like to shift our attention
to how to use specific aspects of muscular contraction
to improve muscle hypertrophy, muscle growth,
as well as improving muscle strength.
There are a lot of reasons to want to get stronger.
And I should just mention that it's not always the case
that getting stronger involves muscles getting bigger.
There are ways for muscles to get stronger
without getting bigger.
However, increasing the size of a muscle
almost inevitably increases the strength of that muscle,
at least to some degree.
Reasons why most everyone should want
to get their muscles stronger is that muscles
are generally getting progressively weaker
across the lifespan.
So when I say getting stronger,
it's not necessarily about being able to move
increasing amounts of weight in the gym,
but rather to offset some of the normal decline
in strength and posture and the ability to generate
a large range of movement safely that occurs as we age.
So there's an important principle of muscle physiology
called the Henneman size principle.
And the Henneman size principle essentially says
that we recruit what are called motor units.
Motor units are just the connections between nerve
and muscle in a pattern that staircases
from low threshold
to high threshold.
What this means is when you pick up something that is light,
you're going to use the minimum amount
of nerve to muscle energy in order to move that thing.
Likewise, when you pick up an object that's heavy,
you're going to use the minimum amount
of nerve to muscle connectivity and energy
in order to move that object.
So it's basically a conservation of energy principle.
Now, if you continue to exert effort of movement,
what will happen is you will tend to recruit more
and more motor units with time.
As you recruit more and more of these motor units,
these connections between these lower motor neurons
and muscle,
that's when you start to get changes in the muscle.
That's when you open the gate for the potential
for the muscles to get stronger and to get larger.
And so the way this process works has been
badly misunderstood in the kind of online literature
of weight training and bodybuilding
and even in sports physiology.
The Henneman size principle is kind of a foundational
principle within muscle physiology.
But many people have come to interpret it by saying
that the way to recruit high threshold motor units,
the ones that are hard to get to is to just use heavy weights.
And that's actually not the case.
As we'll talk about, the research supports that weights
in a very large range of sort of a percentage
of your maximum, anywhere from 30 to 80%.
So weights that are not very light, but are moderately light
too heavy can cause changes in the connections
between nerve and muscle that lead to muscle strength
and muscle hypertrophy.
Put differently, heavy weights can help build muscle
and strength, but they are not required.
What one has to do is adhere to a certain number
of parameters, just a couple of key variables
that I'll spell out for you.
And if you do that, you can greatly increase
muscle hypertrophy, muscle size, and or muscle strength
if that's what you want to do.
And you don't necessarily have to use heavy weights
in order to do that.
Now, I'm sure the power lifters and the people
that like to move heavy weights around will say,
no, if you want to get strong,
you absolutely have to live heavy weights.
And that might be true if you want to get very strong,
but for most people who are interested
in supporting their muscular such that they offset
any age-related decline in strength
or an increasing hypertrophy and strength to some degree,
there really isn't a need to use the heaviest weights
possible in order to build strength and muscle.
So there are three major stimuli for changing the way
that muscle works and making muscles stronger,
larger or better in some way.
And those are stress, tension and damage.
Those three things don't necessarily all have to be present
but stress of some kind has to exist.
So this is very reminiscent of neuroplasticity in the brain.
There is a good predictor of how well
or how efficient you will be in building the strength
and or if you like the size of a given muscle.
And it has everything to do with those upper motor neurons
that are involved in deliberate control of muscle.
You can actually do this test right now.
You can just kind of march across your body mentally
and see whether or not you can independently contract
any or all of your muscles.
Because everything about muscle hypertrophy,
about stimulating muscle growth
is about generating isolated contractions,
about challenging specific muscles in a very unnatural way.
Whereas with strength,
it's about using musculature as a system,
moving weights, moving resistance, moving the body.
The specific goal of hypertrophy
is to isolate specific nerve to muscle pathways
so that you stimulate the chemical
and signaling transduction events in muscles
so that those muscles respond by getting larger.
So there's a critical distinction
in terms of getting stronger
versus trying to get muscles to be larger,
hypertrophy per se,
and it has to do with how much you isolate those muscles.
So you can nest this as a principle for yourself,
which is if you want to get stronger,
it's really about moving progressively greater loads
or increasing the amount of weight that you move.
Whereas if you're specifically interested
in generating hypertrophy,
it's all about trying to generate those really hard,
almost painful localized contractions of muscle.
If ever there was an area of practical science
that was very confused, very controversial
and almost combative at times,
it would be this issue of how best to train.
I suppose the only thing that's even more barbed wire
of a conversation than that is how best to eat for health.
Those seem to be the two most common areas of online battle.
What's very clear now from all the literature
is that once you know roughly your one repetition maximum,
the maximum amount of weight
that you can perform an exercise with for one repetition in good form,
full range of motion, that it's very clear
that moving weights or using bands or using body weight,
for instance, in the 30 to 80% of one rep maximum,
that is going to be the most beneficial range
in terms of muscle hypertrophy and strength.
So muscle growth and strength.
So let's say you're somebody who's been
doing some resistance exercise kind of on and off
over the years, and you decide you want to get serious
about that for sake of sport
or offsetting age-related declines in strength.
The range of sets to do in order to improve strength ranges anywhere from two,
believe it or not, to 20 per week.
Again, these are sets per week
and they don't necessarily all have to be performed
in the same weight training session.
It appears that five sets per week
in this 30% to 80% of the one repetition maximum range
is what's required just to maintain your muscle.
So think about that.
If you're somebody who's kind of a verse
to resistance training,
you are going to lose muscle size and strength.
Your metabolism will drop, your posture will get worse.
Everything in the context of nerve to muscle connectivity
will get worse over time,
unless you are generating five sets or more
of this 30% to 80% of your one repetition maximum per week.
Okay, so what this means is for the typical person
who hasn't done a lot of weight training,
you need to do at least five sets per muscle group.
Now that's just to maintain.
And then there's this huge range
that goes all the way up to 15 and in some case,
20 sets per week.
Now, how many sets you perform
is going to depend on the intensity
of the work that you perform.
This is where it gets a little bit controversial,
but I think nowadays most people agree
that 10% of the sets of a given workout
or 10% of workouts overall
should be of the high intensity sort
where one is actually working to muscular failure.
But the point being that most of your training,
most of your sets should be not to failure.
And the reason for that is it allows you
to do more volume of work.
So we can make this simple,
perform anywhere from five to 15 sets
of resistance exercise per week.
And that's per muscle.
And that's in this 30 to 80%
of what your one repetition maximum.
That seems to be the most scientifically supported way
of offsetting any decline in muscle strength.
If you're working in the kind of five set range
and in increasing muscle strength,
when you start to get up into the 10 and 15 set range.
But it's pretty clear that performing this five to 15 sets
per week, whether or not it's in one workout
or whether that's divided up across multiple workouts
is really what's going to be most beneficial.
And please do keep in mind Heneman's size principle
and the recruitment of motor units.
And remember the better you are at contracting
particular muscles and isolating those muscles,
the fewer sets likely you need to do
in order to get the desired effect.
I'd like to take a quick break
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What about people who have been training for a while?
If you're somebody who's been doing weight training
for a while, the data point to the fact
that more volume can be beneficial,
even for muscles that you are very efficient at contracting.
Now, the curve on this, the graph on this,
begins again at about five sets per week
for maintaining a given muscle group
and extends all the way out to 25 or 30 sets per week.
However, there are individuals who, for whatever reason,
can generate so much force,
they're so good at training muscles
that they can generate so much force in they're so good at training muscles that they can generate so much force
in just four or six or eight sets
that doing this large volume of work
is actually going to be counterproductive.
So everyone needs to figure out for themselves,
first of all, how often you're willing to do
resistance exercise of any kind.
And then it does appear that somewhere between
five and 15 sets per week is going to be what's the thing
that's going to work for most people.
Now, this is based on a tremendous amount of work
that was done by Andy Galpin and colleagues,
Brad Schoenfield and colleagues, Mike Roberts.
There's a huge group of people out there
doing exercise physiology and a small subset of them
that are linking them back to real world protocols
that don't just pertain to athletes.
So that's mainly what I'm focusing on today.
And surely there will be exceptions.
Now, if you are going to divide the sets across the week,
you're not going to do all 10 sets, for instance,
for a given muscle group in one session,
then of course it's imperative that the muscles recover
in between sessions.
You might ask, well, what about the speeds of movements?
This is actually turns out to be
a really interesting data set.
For generating explosiveness and speed,
it's very clear that learning to generate forces quickly
and to move heavy or moderately heavy loads quickly
is going to be beneficial because of the way
that you train the motor neurons.
And of course changes in the muscle.
And so what this would involve is something like 60 to 75%
of a one repetition maximum.
And then in a controlled way, moving that as quickly
as one can throughout the entire set
and certainly not going to failure.
Because as you approach failure,
the inability to move the weight with good form,
the weight inevitably slows down.
So as you're probably starting to realize,
you need to customize a resistance practice
for your particular needs and goals.
So we've talked about a few principles,
the fact that you need to get sufficient volume,
you need at least five sets to maintain,
and you probably need about 10 sets per muscle group
in order to improve muscle.
That moving weights of moderate to moderately heavy weight
quickly is going to be best for explosiveness.
That isolating muscles and really contracting muscles hard,
something that you can test by just when you're outside
the training session, sooner or later,
you can cramp the muscle hard will really,
will tell you your capacity to improve hypertrophy
or to engage strength changes in that muscle.
That your ability to contract a muscle hard
is inversely related to the number of sets
that you should do in order to isolate
and stimulate that muscle.
Now, how long to recover between sets?
This is a question for the testosterone protocol.
Duncan French and colleagues found
that it was about two minutes,
keeping that really on the clock, two minutes, not longer.
For hypertrophy and for strength gains,
it does seem that resting anywhere from two minutes
or even three or four or even five or six minutes
can be beneficial.
So how do we know if we've recovered?
How can we test recovery?
And this is not just recovery from resistance training,
this is recovery from running, recovery from swimming.
Up until now, I've been talking about resistance training
more or less in a vacuum.
I haven't even touched on the fact that many people
are running and they're doing resistance training,
or they're swimming and they're doing resistance training.
Well, you can assess systemic recovery,
meaning your nervous system
and your nervous system's ability to generate force,
both distributed and isolated, through three main tests.
And fortunately, these tests are very simple
and two of them are essentially zero costs
require no equipment.
HRV, heart rate variability, has made its way finally
into the forefront of exercise physiology
and even into the popular discussion.
I've talked about HRV before,
how when we exhale our heart rate slows down
because of the way that our diaphragm is connected
to our heart and to our brain
and the way our brain is connected to our heart.
When we inhale, our heart rate speeds up
and that is the basis of heart rate variability.
Heart rate variability is good,
but heart rate variability is difficult
for a lot of people to measure.
There are two measures, however,
whether or not you recovered
that you can use first thing in the morning when you wake up
in order to assess how well recovered you are
and therefore whether or not you should train
your whole system at all that day.
The first one is grip strength.
Grip strength, the ability to generate force
at the level of squeezing the fist
or squeezing down on something
might seem like kind of a trivial way to assess recovery,
but it's not because it relates to your ability
to use your upper motor neurons
to control your lower motor neurons
and to generate isolated force.
And so that's really what you're assessing
when you do that.
Some people will use one of these grip tools.
If I've been working really hard, not sleeping very well,
or I've been training a lot,
any one or combination of those things, my grip suffers.
I can't actually squeeze that thing down as much as I can.
But on a good day, I can squeeze this thing
so that I eliminate the hole in the donut, so to speak.
You can also take a floor scale and squeeze the scale
and see how much force you can generate.
I would do that as a baseline to establish what you can do
when you're well rested. And then if you do that in the morning to establish what you can do when you're well rested.
And then if you do that in the morning,
you can see whether or not you're able to generate
the same amount of force.
A lot of this is very subjective with the scale.
You're really trying to assess whether or not
you can generate the same amount of force.
If you start seeing a 10% or 20% certainly reduction in that,
that's concerning.
It means that your system,
that your nervous system as a whole,
it's not necessarily fatigued.
It's that the pathways from nerve to muscle
are still in the process of rewiring themselves
in order to generate force.
And you might think, well, I trained one muscle group one day.
Why am I having a hard time doing this
for a completely different muscle group?
Doesn't make any sense.
But there's something about the upper motor neuron
to lower motor neuron pathway generally
that allows you to use something like grip strength
as a kind of a thermometer, if you will,
of your ability to recover.
So look for your ability to generate force in grip
when you first wake up.
It's not going to be as good as it is at 3 p.m.
after a cup of coffee and a couple meals,
but the point isn't performance overall.
The point is to assess whether or not you're getting better,
worse or the same from day to day.
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The other one that's really terrific
and the Andy Galpin's group is using,
and I'm delighted about this because it relates
to something that my lab is very excited about as well,
is carbon dioxide tolerance.
So this is a really interesting tool
that endurance athletes, strength athletes,
I think can all benefit from.
So here's how you do the carbon dioxide tolerance test.
You wake up in the morning and what you're going to do
is you're going to inhale through your nose
as deeply as you can.
You can do this lying down, you know, sitting, whatever.
Inhale through your nose and then exhale all the way.
So that's one, you're going to repeat that four times.
Then you take a fifth inhale as deep as you can
through your nose, fill your lungs as much as you can.
And if you can try and expand,
make your stomach go out while you do that,
that means that your diaphragm is really engaged.
So you're inhaling as much as you possibly can.
Then hit the timer and your goal is to release that air
as slowly as possible through your mouth.
So it looks like you have a tiny, tiny little straw
in your mouth and you're letting it go.
As slowly as you possibly can.
Measure what we call the carbon dioxide blow off time
or discard rate.
I know you can all sit with lungs empty
after you eliminate all that air, but don't lie to yourself.
Don't stop the timer when you've been sitting
with your lungs empty for a while.
Stop the timer when you are finally no longer able
to exhale any more air.
Your carbon dioxide discard rate will be somewhere
between one second and presumably two minutes.
Two minutes would be a heroic carbon dioxide discard time.
30 seconds would be more typical.
20 seconds would be more typical, 20 seconds would be fast.
If your carbon dioxide discard time is 20 or 25 seconds
or less, you are not necessarily recovered
from your previous day's activities.
If your carbon dioxide discard time is somewhere
between about 30 seconds and 60 seconds,
you are in what we would call kind of the green zone
where you are in a position to do more physical work.
And if your carbon dioxide discard time
is somewhere between 65 and 120 seconds,
well, then you have almost certainly
recovered your nervous system.
I'm not talking about the individual muscles,
but your nervous system is prepared to do more work.
I'm really keen on this tool because everybody
has different recovery abilities.
I realize people have varying levels of stress
and demand in their life.
It's just impossible to prescribe an entire protocol
that says, okay, yes, you should train today
and this is exactly what you should do.
No, you shouldn't use carbon dioxide discard rate
because A, it's valuable, it's informative.
B, it's zero cost.
And C, it's something that you can track objectively
over time.
And that's really the key.
So recovery is a complex process.
It's got a lot of things,
but the CO2 tolerance test should be a valuable tool.
Now, another tool for recovery
that people are very excited about
is the use of cold and the ice bath.
And this is important.
Yes, it will reduce inflammation.
Yes, it will reduce the amount
of delayed onset muscle soreness,
but it does seem to interfere
with some of the things like mTOR pathways,
the mammalian target erapamycin pathway and other pathways related
to an inflammation that promote muscle repair.
Remember, and muscle growth.
Remember stress, tension and damage are the stimulus
for nerve to muscle connections to change
and for muscles to get bigger, stronger and better.
And so if you're getting into the ice bath
after doing resistance training,
you are likely short circuiting the improvements that you're getting into the ice bath after doing resistance training, you are likely short-circuiting the improvements
that you're trying to create.
The other thing are non-steroid anti-inflammatory drugs.
You know their trade names.
These are painkillers that many people take.
Those, as I've mentioned in a previous episode,
seem to prevent a lot of the gains,
the improvements in endurance, strength, and size
that people are specifically using exercise for.
So be cautious about your use
of non-steroid anti-inflammatory drugs,
especially within the four hours preceding
or the four hours following exercise.
Let's talk about some of the things
that seem to work across the board to improve strength,
improve hypertrophy,
and improve nerve to muscle communication and performance.
The first thing that's absolutely key for nerve to muscle communication and performance. The first thing that's absolutely key
for nerve to muscle communication
and physical performance of any kind,
might not sound that exciting to you,
but it is very exciting.
And that's salt.
Nerves, nerve cells, neurons communicate with each other
and communicate with muscle by electricity.
But that electricity is generated by particular ions
moving into and out of the neuron.
And the rushing in of a particular ion, sodium, salt,
is what allows nerve cells to fire.
If you don't have enough salt in your system,
your neurons and your brain
and your nerve to muscle communication will be terrible.
If you have sufficient salt, it will be excellent.
How much salt will depend on how much water you're drinking,
how much caffeine you're drinking
and how much food you're ingesting.
So, and whether or not you're taking any diuretics,
how hot it is, et cetera, how much you're sweating.
So you want to make sure that you have enough salt,
potassium and magnesium in your system
if you want to perform well.
The other thing that's been shown over and over again,
numerous well-controlled studies
to improve muscle performance is creatine.
How much creatine?
Well, I asked the experts and they tell me that
for somebody who's about 180 pounds,
five grams a day should be sufficient or so.
Creatine seems to have a performance enhancing effect.
There are 66 studies, 66,
showing that power output is greatly increased,
anywhere from 12 to 20%.
And this is sprinting and running and jumping
as well as weightlifting by creatine.
The ability to hydrate your body is improved by creatine
because of the way that it brings more water
into cells of various kinds.
It reduces fatigue.
When it comes to supporting muscle,
it does seem that ingesting 700 to 3000 milligrams
of the essential amino acid leucine
with each meal is important.
Now that does not necessarily mean from supplements.
In fact, most people recommend that you get your protein,
you get your amino acids,
including your essential amino acids
and your leucine from whole foods.
High quality proteins are high density proteins.
What do you mean by that?
Well, it is true that a lot of sources of protein
are found in things like beans and nuts
and things like that,
that all the essential amino acids can be found there,
but per unit calorie, if it's in your practice,
if it's in your ethics to ingest animal proteins,
it's true that for instance, 200 calories of steak
or chicken or fish or eggs
will have a higher density of essential amino acids
than the equivalent amount of calories from nuts or plants.
So I'm not for the vegans and vegetarians,
I'm certainly not saying there's no way
that you can support muscle growth, you absolutely can.
I encourage you to think about this protein density issue
and whether or not you're getting sufficient
essential amino acids, especially leucine.
But I think the simple takeaway from the literature
that I was able to extract eating two to four times a day,
making sure you're getting sufficient amino acids
in a way that's compatible with your ethics
and with your nutritional regimen
is going to support muscle repair, muscle growth,
strength improvements, et cetera, just fine.
Last but not least, I want to thank you
for your time and attention today.
And as always, thank you for your interest in science.
["Science Facts"]