Huberman Lab - Improve Your Lymphatic System for Overall Health & Appearance
Episode Date: October 27, 2025Here I explain the lymphatic system, a crucial bodily network for overall health and appearance. I explain how the lymphatic system works to remove cellular waste and fluid from your organs and combat... infections. I provide science-based tools that support your lymphatic system for the sake of health and appearance, including: how to reduce fluid retention in your limbs, trunk or face, how to eliminate 'bags' under your eyes and brain fog, and how to improve cardiac health and longevity. Because your lymphatic system lacks a central pump, it needs the mechanical forces generated by specific types of bodily movement, breathing and pressure to circulate your lymph properly, and I explain how you can activate these. I also explain how to support optimal functioning of your glymphatic system, a brain- and spinal cord waste-clearing system active during sleep that is crucial for brain functioning and longevity, including to prevent dementia. Read the episode show notes at hubermanlab.com. Thank you to our sponsors AGZ by AG1: https://drinkagz.com/huberman LMNT: https://drinklmnt.com/huberman David: https://davidprotein.com/huberman Eight Sleep: https://eightsleep.com/huberman Function: https://functionhealth.com/huberman Timestamps (00:00:00) Lymphatic System (00:04:11) Circulatory System, Heart; Oxygen, Nutrient & Waste Transfer (00:11:03) Lymphatic System, Fluid, Lymphedema, Chronic Inflammation; Brain Fog (00:14:52) Sponsor: LMNT & David Protein (00:17:28) Lymphatic Vessels, Tool: Enhance Lymphatic Drainage with Movement (00:26:24) Tools: Jumping (Rebounding), Treading Water, Swimming (00:27:41) Tool: Swelling, Lymphatic Drainage & Diaphragmatic Breathing (00:32:05) Swimming & Lymphatic Flow; Tai Chi (00:34:00) Lymphatic Massage, Cancer & Lymphedema; Jade Roller & Gua Sha (00:37:28) Sponsor: AGZ by AG1 (00:38:56) Lymph Flow, Tool: Lymphatic Massage & Manual Lymphatic Drainage (00:45:02) Immune Function of Lymphatic System, Sore Lymph Nodes (00:54:24) Cancer Treatment, Lymph Nodes & Lymphedema (00:57:02) Limb Swelling, Minor Lymphedema & Inflammation, Lymphatic Boots (01:00:09) Sponsors: Eight Sleep (01:01:43) Glymphatic System, Brain & Sleep (01:05:56) Sleep & Brain Waste Recycling; Discovery of the Glymphatic System (01:12:24) Enhance Glymphatic Clearance, Brain Fog, Age, Tool: Side Sleeping Position (01:15:54) Tools: Optimize Sleep, Cardiovascular Exercise, Elevate Feet, Pillow (01:17:29) Puffy Face, Tool: Lymphatic & Facial Massage (01:21:23) Sponsor: Function (01:23:11) Tool: Hydration & Lymphatic Support (01:24:48) Tool: Cardiovascular Exercise & Lymphatic Vessels, Heart, Aging (01:31:06) Tool: Infrared & Red Light, Mitochondria, Lymphedema, Skin Appearance (01:36:08) Key Takeaways (01:37:21) Zero-Cost Support, YouTube, Spotify & Apple Follow, Reviews & Feedback, Sponsors, Protocols Book, Social Media, Neural Network Newsletter Disclaimer & Disclosures Learn more about your ad choices. Visit megaphone.fm/adchoices
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Welcome to the Huberman Lab podcast where we discuss science and science-based tools for everyday life.
I'm Andrew Huberman and I'm a professor of neurobiology and ophthalmology at Stanford School of Medicine.
Today we are discussing the lymphatic system.
For many of you, the lymphatic system probably sounds a little bit esoteric.
And for many of you, the lymphatic system may even drop notions of people talking about lymphatic clearance or doing bizarre.
seeming types of very light massage or jade rollers or bouncing on trampolines.
And I must say in researching this episode, I came to three general conclusions that I think
are important to point out right now.
First of all, your lymphatic system is absolutely essential to your immediate and long-term
health.
It's an incredible system that is serving you right now as you listen to this, and it's a system
that you need to support.
The second conclusion is that the lymphatic system is somewhat cryptic, and it doesn't
get as much attention as say the cardiovascular system or your brain and nervous system or even
the gut microbiome. And then the third conclusion is that the lymphatic system and what is sometimes
just generally referred to as lymphatics often get kind of a bad rap. And the reason is that a lot of
the practices that are out there in the wellness space and health space that relate to lymphatics
can often seem a little bit goofy or odd or kind of new agey or woo. Things like rebounding, like
bouncing on a trampoline or shaking, things of that sort.
And to some extent, they look odd because typically those aren't behaviors that most
people engage in every day.
But once you understand the structure and function of the lymphatic system, which you soon
will, you'll realize why things like rebounding, things like treading water, things like
specific ways of breathing, actually serve the lymphatic system quite well.
And there's a real basis for why those practices actually work.
So those are three general points about the lymphatic system to keep in mind today as we
move forward. Another thing to keep in mind is that the lymphatic system is directly related
to your appearance. Later, you'll learn why if you were to stay up for one night and not get
any sleep or even just get a poor night's sleep and you look at your face in the morning,
you look very different after a poor night's sleep than you do after a great night's sleep.
Sometimes you even look very different immediately upon waking after a great night's sleep
as opposed to a couple of hours later. Many people wake up with kind of bags under their eyes,
they look kind of groggy, they look much older. And then a couple of hours later,
They look fresh and that stuff is all cleared away.
And certainly not by doing anything cosmetic
in terms of makeup or anything.
That transition from bags under the eyes,
feeling a heaviness in the face,
the eyes tired, a sort of lack of life in the face and eyes.
And then later, just a couple of hours,
looking vibrant, the face looking very fresh
and ready for the day, that has everything to do
with what's called glymphatic clearance
and the lymphatic system of the face and neck.
So today you're going to learn how the lymphatic system works.
You're going to learn how to support your lymphatic system for your immediate and long-term health,
as well as for appearance, and you're going to learn about if you were to have, say, an injury
to the body or, God forbid, if you were suffering from cancer, how you could support your
lymphatic system.
And in talking about all of this, you'll be able to make sense of why it is that things
like lymphatic massage or the various tools and treatments that are out there may actually work.
and why some of them perhaps should be avoided.
And as a final point, you're also going to realize
by the end of today's episode
that the lymphatic system is one of the major reasons
why exercise supports longevity and heart health
and brain health and all the other things
that we've heard that exercise can provide.
The point here is that your lymphatic system
sits central to everything we care about
in terms of immediate and long-term health.
And as you'll soon see, it's also just a really cool system.
Before we begin,
I'd like to emphasize that 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.
In keeping with that theme, today's episode does include sponsors.
Okay, let's get into the lymphatic system.
But in order to get into the lymphatic system, we need to talk briefly about the circulatory system for blood.
Now, everybody knows what the heart is.
The heart is this organ that pumps blood.
many of you are probably familiar with the fact that the heart has different chambers, different
compartments, but the heart also has two major jobs that are quite different from one another
and two major anatomical distinctions that allow those functions to occur.
And those functions, broadly speaking, are to deliver oxygenated blood to all the tissues of your body,
including your brain, your spleen.
Every organ and tissue in the body needs oxygenated blood.
and also to return the non-oxygenated blood back to the heart and back to the lungs so that it can get re-oxygenated.
So I'm just going to briefly describe the blood circulatory system in very broad terms.
We probably should do an entire episode about heart health and heart function, and we will.
But for those of you not familiar with how the heart works, basically the heart is going to pump blood out through what are called arteries.
You've all heard of arteries, which are fairly large diameter tubes.
They have walls of those tubes that can resist a lot of pressure.
And that's important because we need to put a lot of pressure
to be able to pump blood far out into the body,
out to your fingertips, your toes, and everything in between.
Okay.
Oxygenated blood is going to travel out through those arteries.
And then eventually, as those arteries approach the tissues
that they need to oxygenate,
and by the way, the blood is delivering not just oxygen,
but also glucose, blood sugar, hormones, different proteins,
proteins, amino acids, all the stuff that your tissues need, not just oxygen.
But then those arteries are going to transition into smaller diameter tubes that we call
the arterials, and then eventually as those arterials approach the tissues they need to
deliver all that stuff, all those goodies within the blood, those arterials are going to
transition and start branching into what are called capillaries.
Most of you have probably heard of capillaries.
Capillaries have a very, very thin wall, just one cell thick.
which allows things within the blood,
like oxygen, amino acids,
and other things that the cells and the tissues of your body need
to actually get out into those tissues.
Okay, so most of us think about the blood system
as pumping stuff out there,
but we probably haven't thought about
how the stuff that needs to get to ourselves
actually gets out of the blood and into those cells.
And I just explained how,
by having a very thin walled set of capillaries
carrying that oxygenated amino acid containing,
glucose-containing blood,
those nutrients and that oxygen can actually get out
of the vasculature, out of those capillaries
and into the cells that need them.
Okay, at a future date,
I'll talk about the actual mechanics of how that's done,
but for right now I think that's sufficient.
Now, once that stuff arrives in the tissue,
and here when I say tissue, it could be brain tissue,
it could be muscle tissue, it could be liver tissue.
Once that stuff gets out into the cells,
the cells are gonna use it.
They're gonna use the oxygen.
They're going to use the glucose.
They're going to use the amino acids.
They're going to use the hormones.
And as a consequence, they are going to create some waste products.
There's going to be carbon dioxide that's created.
There's going to be cellular waste in the form of actual physical debris.
There's going to be metabolites.
There's going to be ammonia.
Basically a bunch of waste product is going to then get kicked out of those cells into what's
called the extracellar space.
Now, a couple times today I'll talk about what's referred to as the interstitial
space. The interstitial space is the area around the cells of the various tissues and organs
of your body. And fluid and these waste products gets kicked out into that interstitial space
between the cells. So once it's there, it needs to be cleared out of there. How is it cleared
out of there? Some of it will be taken back up into the blood supply. And with it, a lot of water,
a lot of fluid. I didn't mention this yet, but a lot of fluid, a lot of water gets out of the
vascular and into those cells and into the interstitial space around those cells while it's
delivering all those nutrients and goodies that we talked about a minute ago. Now, some of the
waste product and the water, so carbon dioxide and water, et cetera, will be taken back up by the
blood supply. How does that happen? Well, there are capillaries that are referred to as venous
capillaries. Okay, so we talked about the arterial system, which delivers oxygenated blood.
There's also another system called the venous system, which takes deoxygenated blood back up to be oxygenated by the lungs.
And it does that, of course, in concert with the heart.
So we have the arterial system that delivers oxygenated blood.
There are rare exceptions of arteries that deliver non-oxygenated blood to tissues such as the lungs.
But let's just set that aside for now.
We've got these arterial system that delivers oxygenated blood.
And then now we have the venous systems.
we have these little venous capillaries
that are also just one cell wall thick
and the water, the carbon dioxide, the ammonia,
the waste products is going to get reabsorbed there.
It's going to then go from small diameter tubes,
the venous capillaries,
up to larger diameter tubes
and eventually into the veins that are going to deliver that blood
and the waste products and the carbon dioxide
back to the heart and lungs to be reoxygenated
and then sent back out to the body.
Okay.
And you may have heard the word pulmonary before.
If you haven't, that's okay.
The pulmonary system is the aspect of the circulatory system that is directed towards the lungs to oxygenate the blood.
Okay, so we've got this really nice looped system where oxygenated blood can get out to the tissues of the body.
The cells in those tissues can use the oxygen, the nutrients, et cetera, and the water and the carbon dioxide and ammonia and other waste products that come from just cells doing their business,
from them doing all the things that they need to do
as a liver cell, as a brain cell, et cetera,
is then going to be passed back into the circulatory system
and then back to the heart and lungs
so that the waste products can be expelled.
For instance, when you exhale,
the carbon dioxide is expelled from your body.
And when you inhale, you bring in more oxygen
that then gets on hemoglobin
and then back through the arterial system
and so on and so forth.
Okay, so it's a beautiful system.
And even if you only captured 5% to 10% of what I just said,
And you certainly will have in mind now that your circulatory system for your blood is sending
out oxygenated stuff, returning non-oxygenated stuff that also has a lot of waste product
in it, and that there's a lot of water in that whole business.
This is all liquid and proteins and glucose, et cetera.
But there's a lot of water in this whole thing.
After all, your blood is liquid.
So the important thing to understand about the lymphatic system is that the lymphatic system
is there waiting at the interstitial space.
and at the interface between this arterial system
that delivers oxygenated blood
and the venous system of capillaries
that collects the de-oxygenated blood
and all these waste products.
And it's right there as a series of tubes
ready to catch the excess fluid
and the waste products
and bring them back to the heart also
but to do a lot of really important things
with them along the way.
You might say, why would you have this third system?
The circulatory system for blood sounds nearly perfect.
And the key is it's not perfect.
Your lymphatic system is responsible for taking the fluid that remains in the extra cellar space
and all the gunk, all the waste products from cellar metabolism, again, proteins, ammonia, carbon dioxide,
and bringing that back into the circulatory system of blood, but along the way doing a number of very important things,
including checking it out to see whether or not there are any contaminants, right, any infections,
bacterial or viral infections.
That occurs in structures called the lymph nodes, which you've probably heard of,
and we will return to a little bit later.
But leaving aside the immune surveillance role of the lymphatic system, just the mere
role of needing to clear away what really is about three to four liters of excess fluid
in the interstitial space is so important.
You might say, well, how important can it really be, right?
Three or four liters, is it really that important?
It is absolutely crucial.
Why?
Why?
Because if too much fluid and amino acids and cellular waste products build up in the tissues
that are using the oxygenated blood and need all the nutrients, that is ripe for infection.
Bacteria love to grow in warm environments with lots of amino acids.
It's ripe for inflammation because of the CO2 and because of the ammonia and the waste products.
And if that inflammation occurs, you get buildup of tissue, in particular adipose tissue can
really thicken, skin can thicken, and it starts becoming chronically inflamed.
And this is something that, believe it or not, is fairly common.
It's common in people who are obese.
It's common in people that don't move enough.
We'll talk about why that's so in a moment.
The lymphatic system's just basic role for draining that fluid out of the interstitial space
is something that all of us should really care about, healthy or unhealthy.
So even if you're not obese, you need to get your lymphatic system tuned up so that it's
clearing that stuff.
It's clearing what we call lymph, which is kind of like a sticky, kind of sticky fluid because
it's got stuff other than water in there.
It's got all those waste products and it rarely has red blood cells in it, but it often can
have a few white blood cells and it can have some other stuff in it.
And we need to clear that out.
So it's semi-viscous.
It's not super fluid.
It's not a gel.
It's kind of somewhere in between.
And we need to clear that out.
In fact, if we don't clear it out, our body very quickly goes into local or systemic
inflammation. And if we don't clear it out within the brain, we get what's called brain fog.
You get cognitive impairment. And the brain fog that occurs from lack of lymphatic clearance
from brain tissue comes on very quickly, even after one poor night's sleep. And it is very
severe. If any of you have ever experienced brain fog, it is awful. The inability to kind of hold
a thought and maintain a thought, and you're kind of somewhere between sleep and awake. And then
you're stressed about that is serious. So the mere clearance of the stuff from the
the extracellular space, the water, CO2, and waste products by the lymphatic system is crucial.
So before I talk about the immune surveillance role of the lymphatic system, I want to talk about
what you can do to encourage the collection and drainage of all that extracellular fluid
and the waste products with it.
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Davidprotein.com slash Huberman. Again, that's Davidprotein.com slash Huberman. Okay, so let's talk
about the lymphatic system focusing on the lymphatic vessels, which are basically just
tubes okay tubes of different sizes depending on where you are in the body and what you need
to accomplish but here's a really key point that everyone should know we spend so much time and
attention thinking about the lymph nodes which of course are super important right go to the doctor
you say you're not feeling well they're going to feel your lymph nodes i'll explain why they do
that in a minute they're going to feel under your jaw you know maybe you've had swollen lymph nodes
and where your legs meet your groin you have your armpits you'll occasionally feel some
some swelling or some kind of dull pain.
By the way, that dull pain or swelling isn't necessarily a sign of a systemic infection.
It could be, but it's not necessarily a sign of an infection.
We'll talk about what the lymph nodes do, but the lymphatic vessels don't get nearly enough
attention, in my opinion.
Your entire body is innervated, as we say, by these lymphatic vessels, right?
From your little pinky toe and all your toes and your feet, any tissue in your body
because it needs blood and oxygen and nutrients
and because the cells there create waste products
and because some of that fluid remains in the interstitial space
doesn't make it back into the vasculature,
you need lymphatic vessels everywhere.
You need them in your brain, you need them in your skin,
you need them in your adipose tissue, your fat, that is.
You need them everywhere.
And so if I were to give you a map
of the lymphatic vessels across the body,
it would just look like spaghetti everywhere.
Lymph nodes are going to be those larger,
compartments where some of the lymphatic fluid
and the stuff within it is sequestered for a bit,
monitored for infections, and then passed along.
We'll get back to that later.
The lymphatic vessels have a very important property,
which is that they are one-way vessels, okay?
Fluid can only pass one direction through them.
And that unidirectionality of the vessels
is oh so important when thinking about how
to encourage lymphatic drainage and lymphatic flow.
And when I say lymphatic,
flow. What I really mean is the passage of fluid from the interstitial extracellular space into
these lymphatic vessels. Sometimes people will call them lymphatic ducts, but that's actually a technical
term related to something else, but into these lymphatic vessels, then through these vessels
and back into the venous blood supply where all sorts of good things happen. We'll talk about
in a bit. So they're one-way vessels. And if you think about the lymph that accumulates
and then goes into the vessels in, say, your feet.
If it's a one-way vessel, you know you need that vessel
is going to be directed towards the heart, right?
The fluid will be able to go towards the heart, right?
Because eventually that's where this stuff needs to go.
It needs to dump back into the venous blood supply,
get oxygenated and so forth, and the waste has to be disposed.
And we have this thing called gravity, which is pulling down, right?
It's pulling down.
It's a force that's literally pulling down,
and you got these one-way vessels trying to
past lymph, which is fluid,
but it's kind of a slightly viscous fluid up toward the heart.
You also have lymphatic vessels in your hands, in your arms,
and gravity is, of course, pulling down
on the fluid within them as well, and your brain, et cetera.
Now, here's a critical feature of the lymphatic system
that is different from the cardiovascular system,
which is there's no pump.
In the cardiovascular system, you have a pump,
you have a heart that can generate a lot of force
to move that liquid out through the arm,
and back through the veins
and you've got a lot of mechanical force coming from that heart.
The lymphatic system doesn't have that at all.
On its own, it's a passive system, no pump,
and it's fighting gravity all the time.
So how does lymph move through these lymphatic vessels?
Nature came up with a brilliant solution.
It's actually the movement of your body
that creates the movement of lymph up through these vessels
from the lower half of your body or down from the
vessels in the upper part of your body,
or in from your arms and fingers
toward the center of your body
to eventually be returned back to the venous blood supply.
This is really important to understand.
The movement of your muscles,
not necessarily resistance training,
although that would contribute to it,
but low level muscular contractions
of the sort that occur when you walk,
when you stand up and sit down again,
when you make little micro movements,
but certainly the movement of the large musculature
of your body in particular,
like your legs and your trunk and your arms,
that's what's going to move this lymphatic fluid along
because the lymphatic vessels can sit very superficially
just underneath the skin, right?
Very, very close to the surface.
The lymphatic system also has these small diameter things
we call lymphatic capillaries,
but it has bigger diameter vessels
within the deeper tissues closer to the muscle
and intimately related to what's called the fascia.
I know some of you have heard of the fascia,
some of you perhaps have not.
If you've ever prepared a steak and you saw there's kind of a not the fatty stuff,
but it's like a white fibrous sheet that you can almost peel off the meat.
Your muscles are surrounded by fascia and those deep lymphatic vessels are closely tied to the fascia
and to the muscular system so that when you move your body, walking or running,
could be exercise, but even just everyday activities,
that lymphatic fluid is being carried back up toward the heart to return and join the blood supply.
So hopefully you're getting a sense of the organizational logic of the lymphatic system.
Nature has co-opted movement as a way to move lymphatic fluid along and encourage lymphatic drainage.
And you want lymphatic drainage.
You want that fluid pulled out of the extracellular space into those vessels and then return back to the heart.
And as I mentioned before, a bunch of other great things happen along the way in terms of immune surveillance.
So if we're going to discuss protocols, one of the most important ways to encourage lymphatic drainage, which is a good thing, and to encourage the
general health of your lymphatic system, because you don't want lymph sitting stagnant in those
vessels, especially if it has contaminants within it, is to make sure that you're moving enough
each day. And we hear a lot these days about, you know, you need 10,000 steps a day, or maybe it's just
7,000, or maybe it's 3,000. No one can really come up with a single answer because it depends
on which system you're trying to create support for, the cardiovascular system, the brain
system, but I think a good number, a good thing to shoot for is at least 7,000 steps per day.
I haven't to have some steps in my home, not a lot of them, but I find that if I'm going
up and down those stairs a lot per day, that's good and probably is a little different than
if I was just walking on a flat surface.
Sometimes I'll get out and get 12,000 steps in a day or if I'm visiting a new city and
I'm walking a lot, 20,000 steps, but I really strive to get enough steps per day.
And you will notice that if you don't get enough steps per day, your system, your body will
feel kind of sluggish.
If you're sitting a lot because of travel,
you should really strive to get as much movement in the airport as you can.
Maybe ideally you take the stairs, you don't get on the conveyors,
if you can manage to do that.
Getting a lot of steps will help your body feel less sore, less sluggish,
and not all but a fair amount of the sluggishness
that we feel when we don't move around a lot,
when inactivity leads us to feel less energy
is the slow movement and the buildup of that lymphatic fluid.
And keep in mind that lymphatic fluid isn't, quote-unquote, bad,
but it contains a lot of waste products
that you do not want sitting around in the local tissues.
And I'll underscore that later when we talk about lymphedema
that occurs under conditions where somebody's being treated for, say,
cancer and their lymph nodes and their lymph vessels
are intentionally destroyed as a way to try and eradicate the cancers
that have invaded the lymphatic system.
When that happens, you get a lot of swelling of tissue.
It can be painful.
The tissue can become necrotic, infected, and inflamed,
and it can lead to all sorts of local and systemic issues.
And cosmetically, of course, it's not good.
either. Movement, movement, movement is the way you're going to encourage lymphatic flow.
Walking is one way to do it. Yes, cardiovascular exercise is excellent for that. And later
we'll talk a little bit about the specifics of how cardiovascular exercise benefits your heart.
Little hint, it's through growth of lymphatic vessels. Did you know that? Much of the benefit
of aerobic exercise for your heart is because of the way that exercise stimulates growth
and health of lymphatic vessels, not heart cells directly. We'll get back to that.
Walking is terrific, cardiovascular exercise.
You know, these days we are all told we need about 150 to 200 minutes of so-called Zone 2 cardio.
People debate whether or not it's better to do high intensity interval training.
Look, I think it's all good.
It's all excellent.
But none of it really is a replacement for just as much movement during the day as possible.
I work a desk job, mainly researching podcast episodes or doing research.
Back in the days when I was doing experiments in my lab, I was getting up and standing up and
moving around a lot.
I've noticed that with each passing year, I'm 50 now.
With each passing year, I tend to move a lot less just spontaneously and as a requirement
of my life, so I do more exercise.
But if you move a lot during your day, that's great, vacuuming, cleaning.
This is a great thing for your lymphatic system, okay?
This is also an appropriate time to talk about some of the quote-unquote kind of goofy
practices that you'll see out there.
I'm not calling them goofy, but they can look a little odd where people, you know,
are talking about like shaking their body or they're talking about jumping up and down
or rebounding, jumping on a small trampoline.
I confess, I own a small trampoline
that I jump on in the morning.
I just think it's fun.
And it turns out to be really good
for your lymphatic system,
as is treading water,
excellent for your lymphatic system.
Swimming, excellent for your lymphatic system.
There are great studies showing that.
And you might say,
how is it that jumping up and down
is moving lymphatic fluid up toward my heart?
Because I'm jumping down,
wouldn't this be like stamping the fluid down toward gravity?
When I was a kid, we used to go to 7-Eleven
and we'd get slurpees,
and we wanted to get as much slurpy in there,
as we couldn't.
We used to just like bending the cups there
and we used to get you all that.
No slurpee stamping.
And we were like, we would do it anyway.
I don't drink slurpees anymore.
But so no slurpee stamping.
But we were pushing that ice and fluid down
so we could get more in there.
Why would rebounding, jumping on a small trampoline
or even shaking or jumping at all,
why would it bring the fluid up?
Wouldn't it stamp it down?
Ah, those lymphatic vessels are one-way vessels.
So as you shake the fluid, right,
It's going up, up, up, up.
There's another way to really encourage a lot of lymphatic flow,
and this will serve people cosmetically
and just generally in terms of feeling of more energetic
and it's kind of a lightness in your lower limbs.
If you've ever felt a lot of heaviness in your lower limbs,
there could be a variety of reasons for that.
It could be related to something in your vascular system,
could be because you train your legs too hard.
Almost always, some of that is due to not moving around enough
and the buildup of lymphatic fluid
in the interstitial space
or within the lymphatic vessels themselves.
One of the best documented ways
to improve lymphatic flow,
to improve the rate
and the extent of the lymphatic drainage
is actually through breathing.
When I first heard this, I thought, oh boy,
now we're getting into breathwork.
My lab has studied breathwork,
aka respiration physiology.
And it's known to be powerful,
but the domain of breathwork oftentimes
has naming of breathwork practices
and stuff that can start seem
in a little counterculture new age woo biohacking,
which is not my flavor.
But get this, along the network of lymphatic vessels,
some of those vessels are somewhat larger.
And there's a particularly large compartment
that sits within your abdomen called the Sisterna Kailai,
okay, fancy name, but Sisterna Kailai is an outpouching
or a swelling of the vessels that contains a lot of lymph.
And we haven't quite gotten to how lymphatic fluid gets back,
into the venous supply and joins up for the blood, et cetera.
But the cisterna chyly is kind of like the sink
or the drain for a lot of the lymphatic fluid
that's made it back to your body,
but has not yet made it back to the blood supply.
It hasn't cleared the lymphatic system yet.
So it turns out one of the best ways
to encourage the movement of lymph fluid
that's already been checked out for infections, et cetera,
and that's been taken out of the interstitiation,
space to go back into your blood supply, which is what you want, is through what's called
diaphragmatic breathing.
And the reason for this is that when you do diaphragmatic breathing, I'll explain
how to do that in a moment.
It's very simple.
The reason diaphragmatic breathing is so useful for encouraging lymph drainage and lymph flow
is because when you do diaphragmatic breathing, which is having your belly extend as you
inhale, so you have this thing called the diaphragm, which is a muscle inside of your body.
And when you inhale, the diaphragm moves down.
Of course, the lungs inflate.
And ideally, your belly moves out a little bit, right?
We generally tell people that it's not so good to breathe
by lifting your chest and using your ribs,
although you can use the muscles between your ribs,
the intercostals, and your ribs to breathe.
But you don't want to be breathing like this.
Ideally, diaphragmatic breathing is what you do most of the time,
unless you need to breathe much harder,
and you're inhaling and your belly's moving out.
Okay?
When you inhale and your belly's moving out,
Now, you are certain that you're doing diaphragmatic breathing.
Diaphromatic breathing creates a pressure differential between this cisterna chly, this reservoir
of lymph, and your blood supply, which has a different pressure within it.
And so if you do a few rounds of diaphragmatic breathing, and when I say rounds, I just mean
a few breaths.
So inhale deeply and have your belly move out.
And then exhale, you're greatly encouraging the passage of lymph from the lymph vessels back
into the blood supply, okay?
Doing this just two or three times when you wake up in the morning, doing this two or three
times in the afternoon or in the evening or really any time that you remember will really
encourage lymphatic drainage.
It will really encourage the movement of that limb fluid.
And this is especially important to do if you're stuck on a plane or behind a desk or you
haven't had the opportunity to move quite as much as you would like because, again, the other
way to move limb fluid along is through low level muscular contractions, but if you're trapped
behind a desk or an airplane seat, you can't do that.
So make it a point to do a few diaphragmatic breaths per day,
and you will greatly encourage the movement and drainage of lymphatic fluid.
And it actually can make a cosmetic difference.
It can actually make a real difference in terms of less swelling of your lower body tissues
because as you clear the cisterna chlyly, you allow the lymph coming up from your legs
and from other locations to also move up, right?
Because you're just creating room for it to move into those now empty tubes.
So while things like rebounding
and turns out treading water in a pool
or swimming in a pool is an excellent way
to create lymphatic drainage, I mean it's one of the best ways
just because of the way that the physics of the water
interacts with those superficial vessels of the skin.
You know, as you swim, there's kind of a shearing along
of the skin.
You might not notice it unless you use a slow motion camera,
but there's kind of a rippling of the skin.
And those lymphatic vessels that sit just below the skin,
those really tiny little capillaries,
They're getting kind of squeezed along by the movement,
that shearing of the skin along the top.
So swimming's great.
It's sometimes hard to get access to a pool.
A really fun way to do this as well
as you can kind of go down to the bottom of the pool
and then blast off the bottom, grab a go there,
go back down and blast it up and grab a gulp of air.
For those of you that have ever seen,
Laird Hamilton, the great server, Laird Hamilton,
and Gabby Reese, who's also great,
his wife, they've developed tools and protocols
for this called XPT.
I don't have any formal affiliation with XPT,
but they've developed a whole set of workouts related to this
for general health reasons, for athletic performance.
And it will also improve lymphatic drainage
and lymphatic passage up from the bottom of the body.
And you can think about the physics of bouncing
off the bottom of the pool, like doing a squat
and then grabbing a gulp of air and going back down and up.
That's almost perfect for what we're trying to accomplish
when we talk about the movement of lymphatic fluid
up and back toward the heart.
And most people don't have access to a pool.
So low level muscular contraction from walking, diaphragmatic breathing.
If you want to get a rebounder, a little trampoline, they're kind of fun.
I think they're fun anyway.
Hard to travel with.
If you ever see people doing Tai Chi type movements in the park in the morning,
oftentimes they'll also include some shaking and things like that.
It might look a little goofy, but there's a clear, clear structural, functional basis for why that would actually work.
And along those lines, if you ever were to look up lymphatic massage,
either lymphatic massage or sometimes called manual lymphatic relief.
It comes by different names.
Keep in mind, there are a lot of quality peer-reviewed studies exploring this,
mostly in the context of treating lymphodema,
the clearance of lymphatic build-up under conditions of cancer.
Lots and lots of peer-reviewed studies.
I've linked to some of those in the show-note captions,
which show over and over again this can be a very useful practice.
There are also drugs that are being developed for clearing out of lymph fluid,
so-called lymphidema.
Actually, a lab at Stanford School of Medicine
is working hard.
They've identified some of the molecular players
that can help move lymph fluid out
under conditions of lymphedema.
I'll provide a link to an interesting discussion about that
if you're curious about it,
if you know someone who's undergoing cancer treatment
and suffering from lymphedema.
But lymphatic massage is a very common medical practice.
A couple things about lymphatic massage that you should know.
I've had a lymphatic massage before,
And I was struck by how light the touch is.
This is not a deep tissue massage.
Lymphatic massage is intentionally rather light.
And sometimes we'll transition from kind of a pushing along of the skin.
For those of you that do this professionally, forgive my lack of specificity here.
I'm going to make the point in a moment that the people who are skilled at doing this
really need to be the ones doing this.
You could do it too for yourself.
Like if you wanted to do self-limactic massage, there are ways to do this.
There's instructions online.
And it generally goes from, you know, people rubbing their skin fairly gently.
People are always encouraged to do this more gently than they think they have to.
To then usually there's some slapping or tapping, which seems kind of odd to those of us that aren't familiar with this.
But it all makes perfect sense, given that those lymphatic capillaries are so small diameter.
You don't want to be pushing hard on the surface of the skin because those lymphatic capillaries will collapse or in some cases rupture.
And so deep tissue massage is kind of the opposite of what we're talking.
talking about when we talk about lymphatic massage,
which is also why when people talk about,
you know, guasha or a jade roller,
it seems kind of woo, but the whole point
is that you're applying gentle pressure.
And I think it's really important to point out
that there's a lot of discrepancy out there
in terms of the direction and places to start
and finish when doing lymphatic massage.
And we'll talk about that in a little bit.
This is actually crucial because you really don't want
to be squeezing or pushing on the lymphatic nose,
especially because they often contain infections that are being battled there, right?
So massaging your lymph nodes directly should be left to professionals.
And in many cases, those professionals told me it's not generally a good idea, right?
Because within those lymph nodes is where you've got the battle between infections and bacteria
and things that just need to be cleared by your immune system.
We're talking about massaging the lymphatic vessels.
So we've talked about a couple of practices for improving lymphatic drainage.
We've talked about some of the practices that might seem odd when you first encounter them,
but they make perfect sense when you understand the structure function of the lymphatic system.
I want to talk a little bit more about how the lymphatic system is organized
so that you can leverage any practices, including the ones I talked about,
and some that I'm going to talk about more in a few minutes,
in order to get drainage of lymphatic buildup in the areas of your body and or face that you want and need.
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Okay, so now you have a picture of your lymphatic system.
It's a bunch of vessels, tubes that are collecting this fluid
and all the waste products within them
headed back toward the heart to get that stuff back in
with the venous blood supply so it can be reoxygenated.
There are a couple of really important features
to how it gets back to the blood
that if you understand, you will be able to facilitate
your own lymphatic health and as a consequence, general health.
If you've ever seen anything about the liver,
lymphatic system or lymphatic drainage or massage
or anything related to lymphatics, as they're called.
This region, in fact, I've been pointing to this region
throughout today's episode.
For those of you just listening,
I'm pointing to my clavicle reason,
to my upper chest and where the neck meets the chest
in particular.
This area is extremely important because it's the area
where lymph fluid is returned to join up with the blood supply.
Remember, that fluid started off in the blood supply,
got out into the interstitial space,
It could have, but didn't rejoin the blood supply out in the tissues.
The lymphatic vessels grabbed it, maybe way down in your feet, maybe in your liver, maybe
in your spleen, maybe in your brain, and now it's got to get back in with the blood.
How does that happen?
Well, you have two ducts, okay, two tubes, biology we got so many names for tubes.
You have two ducks.
You have the right lymphatic duct, which is on the right, and you have the left lymphatic
duct, which is the thoracic lymphatic duct on the left.
Okay, here's the deal.
If you were to draw a line right down the middle
of your face or so and out towards your shoulder
and below it on the right, maybe a little bit of torso
and your right arm, that right side of your face,
your right arm, your right shoulder,
kind of upper part of your torso on the right hand side,
That's all going to drain to the right side,
that right thoracic duct.
And that right thoracic duct is gonna take all the lymph fluid
and it's gonna dump it back into the venous blood supply.
It's literally gonna join up with there.
There's a not so little actually vascular tube
delivering that deoxygenated blood back to the heart
and the lymph is gonna dump into there.
Okay, the rest of your body,
both your left and right feet, left and right legs,
their torso, that's everything
I didn't describe for the right thoracic duct,
left arm, shoulder, all of that,
that's all going to drain to the left thoracic duct.
It's actually just called the thoracic duct,
and it's gonna join up with the vein of supply there.
The veins that the lymphatic system feed into
before all of that gets back to the heart
are called the subclavian veins.
Okay, you have one on your right
and you have one on your left,
and as the name suggests,
your sort of sit below, sub, your clavicles, okay?
So you have your clavicles,
which are your collarbone, sometimes people call them.
And below those are these vessels that feed back to the heart
with deoxygenated blood
and a bunch of other stuff that needs dealing with
by your cardiovascular system.
The lymphatic drainage into these subclavian veins
is a major drainage site.
So these are big tubes dropping lymphatic fluid into big tubes.
So this is the end point of the lymphatic system.
Remember, it's a one-way system up from your legs,
out and in from your arms,
up through the cisterna chylite,
and then dumping all that lymphatic fluid back
into your blood supply.
This is why in most practices that encourage lymphatic flow
or what's often talked about lymphatic massage,
whether or not it's for lymphidema
or whether or not it's for cosmetic purposes,
very often you hear about people encouraging
some light rubbing first,
followed by some gentle tapping
and maybe even eventually some harder slapping
of the region around the clavicles.
Very important that you start with light touch
and move up towards more,
forceful touch, although never particularly forceful
because you don't wanna collapse those lymphatic vessels.
They're very small.
You don't wanna crush them, you don't wanna pinch them
because then the lymphatic fluid won't move through them.
So there's kind of this progression from lighter touch
and kind of gentle rubbing or shearing of the skin,
very, very light to maybe some light tapping
to encourage moving to the fluid along
and then maybe some slightly more vigorous.
It's not really slapping, but kind of like a padding of the skin.
That's it, a padding of the skin.
Almost always that's somewhere in a lymphatic massage protocol,
whether the protocol is for lymphidema
under conditions of cancer treatment
or it's for purely cosmetic purposes.
Almost always there's an encouragement
of movement of lymphatic fluid
from that cisterna chylae as well
because again that's a major reservoir just below
where the lymphatic system is gonna drain back
into the blood supply.
People debate where to start these lymphatic massages.
This is a whole field and frankly I found differing opinions on this.
Some people say, well, you have to start, you know, at the distal limbs, meaning out towards
the hands and fingers, move things in.
Other people say, well, no.
You actually want to push down to the legs, then up through the legs.
There's a lot of debate here.
I think if you look at the mechanics of the lymphatic system, a couple of things become clear.
You don't want to use firm pressure.
This is not deep tissue massage.
At some point in the protocol, you're going to want to include some encouragement of drainage from
the clavicle reasons for all the reasons to be discussed.
from the cisterna chile.
And then in terms of the lower legs and the legs and the arms, the out to in progression
makes perfect sense.
How you order those differs depending on the practitioner and indeed even in different research
papers.
They use different approaches.
I'm not so sure that it matters.
What does seem to be very important is that you're not impinging or pushing hard on the lymph
nodes because you want lymph fluid in the lymph nodes for a certain period of time so
that your immune system can surveil that lymph fluid
and decide whether or not there are indeed
any bacterial or viral infections
or other contaminants that need to be dealt with
by the immune system.
Let's take a couple of minutes
and talk about the immune functions of the lymphatic system.
Now for most people, when they think about the lymphatic system,
they think about the immune system.
And that's because most anyone who's ever had a cold
or some other virus has had the experience
of having their lymph nodes feel kind of swollen
and maybe even a little bit painful.
Typically, that occurs
in the throat or the area right below the jaw.
If you go to the doctor, you say you're not feeling well,
one of the first things they're going to do
is they're going to kind of palpate gently
and touch gently behind your ears along your jaw line,
along your throat, they're gonna do this.
They might ask you if you have any swollen lymph nodes
in your armpits or in your groin.
You may even be able to sense that swelling yourself.
And what that swelling reflects
is the accumulation of lymph fluid
in so-called lymph nodes.
Lymph nodes are these out-pouchings or swellings
along the lymph vessels where lymph fluid
and the stuff within lymph fluid is sequestered.
So it's kept there for a while
as opposed to just passing along through those one-way tubes.
And it is surveilled by the immune system.
Why and how is it surveilled by the immune system?
Well, first of all, remember,
when your cells are active, your liver cells,
your brain cells, your muscle cells,
by doing the things they do,
they use nutrients and energy,
glucose, they use oxygen, they use amino acids,
they rely on hormones and all that stuff,
and they generate waste.
They generate waste products in the form
of little bits of cellar debris, they generate ammonia,
there's carbon dioxide, we listed off some of these earlier.
But keep in mind that those cells are fed by the blood supply,
and stuff gets into the blood supply
by way of what you breathe, okay,
so you can inhale a virus, for instance,
bacteria that could be in food,
bacteria from things that you touch that somehow gets beneath the skin and into your blood supply
through a scratch or a cut, maybe a bite, these sorts of things, or you know, maybe you cut yourself
with a knife that had some bacteria, gets into your blood supply. And so you have foreign bodies,
contaminants within your blood supply. Some of that is going to get out into the interstitial space.
Some of that will be taken up by the lymphatic system. You also have things, again, waste products
is being generated by the cells of your body,
and the lymph nodes are the place
where all that stuff can be surveilled by the immune system.
What do I mean surveilled by the immune system?
Well, within the lymph node, you have immune cells.
You have things like T cells and B cells,
so named because the T cells mature in the thymus,
which is a structure that is very prominent
when you're young as a baby and as a kid,
and then over time you actually lose your thymic tissue
as you become an adult,
and by time you reach,
of 40s and 50s and 60-70s, you may not even have any thymic tissue whatsoever.
You have T cells, you have B cells, which come from the bone marrow.
These are different types of lymphocytes, different types of white blood cells.
Again, these are all different categories.
So I'm talking about lymphocytes, white blood cells, T cells and B cells, different subcategories,
that go into the lymph nodes and then check out and see whether or not there are bacteria
and viruses and other kinds of foreign invaders that might need to be dealt with by the immune
system. In addition to that, you have cells that go out into your body, things like macrophages,
things like dendritic cells, okay, the names don't matter so much, that are looking for foreign
invaders. Again, it could be viruses, bacteria, funguses, could be even just physical bodies
that somehow made it into your system one way or the other. And they will literally present
things to the T cells and B cells and other immune cells within the lymph nodes so that the T cells
and B cells can generate through a process,
this takes some time, to generate antibodies
to fight those things off.
Okay, I've talked about the immune system
in previous episodes.
You have an innate immune system,
which is a kind of generic response
to all forms of foreign invaders
that causes some local inflammation,
some swelling, sometimes some symptomology
in response to a virus that's just very generic,
like feeling stuffy, lethargic,
you know, a little bit of a headache
or a stomach ache, this kind of thing.
And then you have your
adaptive immune system, which recognizes the specific surface of foreign invaders and generates
antibodies to essentially bind that specific surface and its properties and neutralize that
foreign invader. So innate immune system and adaptive immune system. Within your lymph nodes,
you basically have a confluence of a lot of different immune cell types evaluating what's coming
through in the lymph fluid, which reflects, of course, what's in the blood, because remember,
the blood supply is giving oxygen and nutrients
and other things to your cells.
A lot of the fluid that's put out
into the interstitial space, remember about 16
or 17 of the 20 liters per day
will be drawn back up into the blood supply,
but then some significant portion
that three to four liters of fluid
that ends up in the lymphatic system
is going to reflect what's in the global circulation system
and these lymph nodes are a place
where what's in the lymphatic system
can be evaluated to determine
whether or not you've got something in your body
that you shouldn't or that you would like to eradicate.
So the lymphatic system, which we've mostly been talking about up into this point as a drainage
system, has a second purpose, right?
It's a multitasker.
It also serves an immune system role to evaluate what's in the lymph and therefore in the blood
and therefore in the entire body.
Now, while we have lymph nodes in our jaw, behind our ears, in the back of our head in
the occipital area, lower back part of our head, we also have them behind our knees,
our groin, inner elbow region.
We have collections of lymph nodes distributed
essentially across the entire body.
You're not going to see them continuously across the body,
but every area needs to be surveilled, right?
And so you have these checkpoints
everywhere along the lymph system
where viruses, bacteria, other foreign invaders
can be evaluated and combated by your immune system.
Now, does that mean that if you have, for instance,
sore lymph nodes in your left armpit that you necessarily have something wrong with your left
arm. No, not necessarily because of the way the lymphatic drainage occurs. However, many people
who have a sore lymph node in their armpit will, you know, they'll kind of rub it. And that makes
perfect sense the way the pain system works. We have a natural reflex to rub to provide, you know,
sort of broadly distributed medium pressure to an area that's in pain. It actually deactivates
some of the pain response within that area.
So like the rubbing of a wound,
like we don't just rub our boo-boos
because we learned to do that when we are kids.
It actually shuts down some of the nerves
that transmit pain.
So that's why we have that reflex.
But you want to make sure that you don't squeeze your lymph nodes
or put too much pressure on them.
Because again, your immune system is fighting things
within those lymph nodes or is evaluating
whether or not something needs to be destroyed
by your immune system within those lymph nodes.
Now, some soreness can exist in the lymph nodes
simply as a matter of swelling of the lymph nodes.
lymph nodes. And that doesn't necessarily reflect infection. Okay, it can, but it doesn't necessarily
reflect infection. If it's, of course, coupled with symptoms, you know, stuffy nose, lethargy,
things of that sort, chances are you're battling something. And if you do notice that your lymph nodes
are particularly swollen and you haven't done, for instance, like a really hard workout recently
or not slept as much as usual recently, then you may be at the threshold of potentially getting
sick and you want to take some measures to get some extra rest, extra hydration.
Probably don't want to exercise too hard those days.
We've talked about this in previous episodes.
You're feeling a little rundown, not sick.
Exercise can probably help you.
You're a little sleep deprived one night.
Exercise definitely can help you.
Two-night sleep deprivation, and you certainly don't want to be exercising with a ton
of intensity because you will get sick.
So those sore lymph nodes are a flag that your system is combating something.
They're a flag that your immune cells are being recruited.
to that area, the lymph is staying in those areas longer because your immune system is trying
to fight something back.
So you should pay attention to that.
But you don't want to be squeezing those lymph nodes.
And as a general theme, I should have mentioned this earlier, if you've ever had deep tissue
massage, right, you may notice afterwards, even if you weren't lying face down in that halo
like thing where your face is there constricting your breathing a little bit, those things aren't
that bad.
They're actually kind of pleasant lie in your stomach, get a massage.
if you've ever had a deep tissue massage,
you may notice afterwards that your face is kind of puffy
and you feel a little bit inflamed.
And they'll often say, oh, you know,
make sure to drink a lot of water.
Turns out that deep tissue massage
can encourage enough movement along those deeper lymphatic vessels
and can push things through the lymph nodes
earlier than it would have been pushed through
and in some sense generate an inflammation response.
Not a major one, but a minor one.
And usually this resolves within a couple of hours.
hours if you're up and walking around a bit.
Again, gently pushing through the lymphatic flow
as it's supposed to be pushed through.
The point here is that your lymph nodes
are a site for combating infection.
You don't want to push things through them any faster
than it normally would occur,
but you also don't want accumulation of lymph
to occur in the nodes too long.
And the way you ensure that it doesn't happen for too long
is to keep the general lymphatic circulation going.
And we've talked about ways to do that earlier.
Earlier in our discussion
about lymphedema, which is the swelling of typically
the lower limbs that can occur, for instance,
in people who are being treated for breast cancer
or for other cancers, where the lymph nodes
are intentionally destroyed by chemo or radiation therapy.
And that's because cancer cells can actually get into the lymph nodes
and they can proliferate there.
We often hear that the cancer has spread to the lymph nodes,
and that's one of the reasons why often the lymph nodes
are removed prior to the spreading
or early in the spreading of a cancer,
try and prevent the broader migration or so-called metastasis of that cancer to other tissues.
The lymphatic system is targeted in this way because if you think about it, the lymphatic
system is in a position to distribute all sorts of things, including bad things like cancer
cells that could proliferate further in other tissues.
So that's why lymph nodes and vessels are often intentionally destroyed as part of cancer
treatment.
And as a consequence, there's less drainage leading to so-called lymphidema.
Now lymphidema can occur for other reasons and it has various stages.
You know, it's actually been mapped out.
I'll provide a link to this, but, you know, there's stage one, two, three, and four.
And to briefly summarize, you know, stage one is asymptomatic.
So the lymphatic system has some abnormal flow, but no real fluid buildup in a tissue that you necessarily see.
It might be just slight swelling.
In stage two, you see swelling due to accumulation of the limb fluid.
And that may subside if you elevate that limb.
So if you're getting some swelling of the ankles, for instance, you put your legs up and it disappears after
you know, putting your legs up for, you know, 20 or 30 minutes, then it's so-called stage
two lymphedema.
Stage three and four are where you get a more permanent swelling.
So an accumulation of fluid and waste products in that interstitial space, that extracellular
space, and that's when things start to become problematic because that build up of fluid
and waste products leads to a local immune response, which then causes thickening of the
tissue above it, which then makes it even harder to clear out waste products, and the whole
things starts to cascade. And this is a particular problem, again, for people being treated for
cancers where the lymphatic vessels or the lymph nodes are intentionally destroyed. And that's why
these people often need a fair amount of lymphatic manual drainage or massage, it's sometimes called,
in order to encourage the movement of the lymph fluid out. And as I mentioned earlier, there are
drugs being developed to try and treat lymphedema through non-manual massage techniques. But that's still
very much in development. But there's great hope for that, because as you can imagine,
Imagine, not everyone has access to proper lymphatic massage for lymphedema, but it's a very
important aspect of cancer treatment and management of cancer treatment.
Lymphidema is something that we should all be mindful of, even minor lymphedema, and this
means even if you're not dealing with cancer treatment, you should be cognizant of whether
or not you're getting some limb swelling due to lymphedema.
A little bit, fine.
You put your feet up.
We'll talk about ways to clear it from your brain in a few minutes, but you know, lymphedema
in that buildup causes a number of problems.
First of all, the waste products in the interstitial fluid that's accumulating there because
you're not getting enough limp drainage can cause local inflammation, which can give way to more
global inflammation.
It also so happens that you get a thickening of the tissue in that area in response to that
inflammation, and that thickening of the tissue causes a hypoxia or a low oxygen availability
for the cells in that area, so that now you've got more cells that get less oxygen that they
need and the whole thing starts to cascade.
While I'm not trying to alarm anybody, you do want to do things to encourage that clearance
of fluid and waste products from the interstitial space into the lymphatic system.
And we talked about some of the things you can do for that earlier.
There are other tools, by the way, that are more sophisticated.
Like, for instance, they have compression boots.
If you've ever been on a plane or you've been running a lot or basically using the tissues
of your lower body or upper body a lot, if you've ever run a 10K or a half marathon or a marathon,
on the heaviness of your legs,
the soreness of your legs the next day.
I highly recommend you get into a pool
and tread some water, do some light swimming.
Again, not an intense workout,
but compression boots can be very helpful
because they basically fill up with air
and compress your lower limbs
and then pulse your lower limbs
to move that lymphatic fluid up toward the drainage system
back into your venous blood supply.
These lymphatic boots can be very, very useful.
There is some costs to them,
but if you have access to them, those can be great.
If not, just try and walk
walk around a lot, put your legs up, do anything you can to get that lymphatic flow going.
You do not want too much build up of fluid and waste products in the interstitial space
to occur for too long.
And if you've been using a tissue a lot, there's going to be a lot of buildup of cellular
waste products.
Which brings us to the glimphatic system, which is basically just the lymphatic system for
the brain.
In fact, as beautiful as the system is and as delighted I am and everybody else is that in 2012,
It was finally verified that the brain also has a lymphatic system.
I don't like the branding.
I don't like the naming.
Yes, glia are involved.
But by calling it the glymphatic system, people think that it's entirely different.
And in fact, it's just somewhat different from the rest of the lymphatic system.
And I think this so-called glymphatic system, which is the lymphatic drainage system of the brain, is so important to all of us.
If you understand a little bit about how it's designed, its architecture, there are some very
straightforward protocols that we'll discuss in a moment that will allow you to experience less
brain fog, less swelling of your face in the morning, less bags underneath your eyes, and
in general, improved wakefulness and cognition, and that just cascades into everything we know
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Okay.
The glymphatic system, which is the proper name for the lymphatic system of the brain.
I was sort of joking earlier.
I just want to make the point that our brain does have a lymphatic system.
Up until 2012, no scientist, no physician believed that there was a lymphatic system for the brain,
that lymphatic clearance or flow or any of that occurred in the brain.
It was assumed that it was not because it had not been discovered,
except there was one scientist who had discovered it earlier and was told that she was wrong about it.
We'll return to that a little bit later.
But the point is that in 2012,
a neuroscientist by the name of Mike Niedergaard,
who studies glia, a form of support cell
that also plays an active role in brain function
and plasticity, et cetera,
she discovered that the brain has a system
for clearing out waste
that by all accounts looks a lot like the lymphatic clearance system
in the rest of the body
and that it involves these cells we call glia.
I'll just briefly describe this system
because it's incredible,
It's beautiful in its organization, and if you understand that organization just a little bit,
you'll be in a position to resolve some things that chances are you and many other people you know suffer from.
Things like brain fog, things like puffiness of the face and under the eyes when you wake up in the morning,
things like changes in your cosmetic appearance that occur throughout the day and when you don't sleep as well as you might have wished you had slept the night before.
In fact, let's just do a little mental experiment for a moment.
Have you ever had a poor night's sleep and compared the way that you look after a poor night's sleep versus after a great night's sleep?
Just next time that happens, take a picture of yourself, right?
You don't have to show it to anybody.
Just take a picture of yourself after a great night's sleep and take a picture ideally in the same location under the same lighting,
but even if it's under different lighting of yourself after a poor night's sleep,
where you either didn't sleep at all or you got maybe two.
hours less than usual sleep, and you will see that you look very different. Your eyes will be
sagging. You have those bags under your eyes. The eyebrows generally drop. There's a kind of a change
in the tone of the eyes. You'll notice that's very typical. And any creases or wrinkles that you
have will become more apparent. If you think about it, that's wild. You sleep two hours less
are three hours less than usual,
where you get one poor night's sleep
and you look very, very different.
And equally impressive is,
if you then get a great night's sleep the next night,
you're going to bounce back
and you look yourself again, as we say.
And your mind also parallels these changes, right?
If you get three hours less
than your usual allocation of sleep,
your brain just does not work as well.
We know that, and you don't feel as well.
You're more reactive,
you're more likely to have kind of attention deficit-like symptoms,
All right, you might not have full-blown ADHD,
but you'll tend to be a bit more moody.
You're certainly more susceptible to infections,
but at the level of the brain,
your brain is not the same as when you get a great night's sleep.
Get a great night's sleep,
and you're just right back where you normally are.
And if you don't sleep well for a few nights or many nights,
you'll notice that your appearance will very rapidly change.
I'm not trying to scare people.
We have lots of episodes on how to get great sleep.
We have zero-cost toolkit on how to get great sleep.
All that's available at Hubermanlap.com.
Just put sleep, sleep, sleep toolkit,
perfect your sleep, all that, and you'll find all those tools in whatever format you want.
But what is it about sleep that is so markedly changing our appearance and the way that our brain
works? And the answer is the clearance of waste products from your brain, which occurs through
essentially what is the lymphatic system of your brain during sleep, doesn't get the opportunity
to do that when you don't get enough sleep. It is that straightforward. So let me explain
this brain lymphatic system and how you can get it to operate at its best.
and I'm not just going to tell you to do that by getting enough sleep.
You certainly should try to do that,
but there are some things that you can do to encourage
better lymphatic clearance within the brain while you sleep
and maybe even get by with a little less sleep than you think you need,
but making that sleep better suited for lymphatic clearance within the brain.
Okay, so it wasn't even two decades ago that this system was discovered
of clearing out of waste products from the brain.
And what Dr. Dendegard so beautifully hypothesized was
There has to be a system for this, right?
There has to be a system.
Why?
Because your brain cells are some of the most metabolically active cells in your entire body, right?
Your brain is just a small portion of your total body weight and volume, but it has a super
high metabolism.
The cells there need things, they need oxygen, they need glucose, even if you're on a keto
diet, they need nutrients, and they're kicking out waste products like crazy, and that stuff
has to get cleared from the brain.
Now, you have a fluid within your brain called cerebral spinal fluid that moves within
in the so-called ventricles of the brain,
so the space is within the brain.
And really your whole brain is bathed in cerebral spinal fluid.
Your brain is floating in this stuff.
And it essentially has access to all the cells in your brain.
So as your cells make waste,
it's picked up by the cerebral spinal fluid.
Now the cerebral spinal fluid is circulated, right?
You create the cerebral spinal fluid.
It's actually manufactured in a very interesting tissue,
a collection of tissues, broadly referred to as the coroids.
but there's stuff like meninges. If you go to medical school or you become a neuroscientist,
you learn all about the details of these things. But for today's discussion, I understand that
the cerebrospinal fluid is made, it bays your brain, and it can collect the waste products
from the brain. Beautiful observations by Dr. Netigard and others found that in animal models,
and now we know this is also true in humans, when you go to sleep at night, the vasculature
that goes into your brain, because of course your brain does get artery inflow, okay, you
have to give blood supply, oxygenated blood to the brain.
And actually comes up from the bottom of the brain.
There's a structure down there called the Circle of Willis.
So your brain is actually resting on kind of a little trampoline of vasculature down
at the bottom.
If you ever flip over a brain and the vasculature is intact, there's a little circle down
there called the Circle of Willis.
And those arteries, remember, they're thick.
They generate a lot of pressure.
So your brain is kind of bouncing on those.
It's like a little kind of rebounding itself, seriously.
And then the vasculature climbs up along the top of the brain.
and it makes basically a right angle
and then dive into the brain
and then it branches out to basically make sure
that all the cells and areas of the brain
get blood supply for oxygen and nutrients and so forth.
Now, that's the case during the daytime
and it's also the case at night.
However, during sleep, what happens is the areas
around the vasculature that goes into the brain
literally spreads out.
They call it the perivascular space.
Literally it's as if every bit of vasculature
has a little area around it,
where there aren't neurons.
And that space gets 60% larger in sleep.
It literally clears away so that there's big tubes
or big areas along the blood vessels
where cerebrospinal fluid, this fluid that's bathing the brain,
can then run up to the surface of the brain
and out to the areas of the brain away from the cells
and then literally get cleared out of the brain
and into the venous blood supply.
Okay, that's a very general description
of how this works, but I want to put a slightly more detailed picture into your mind because
this is amazing.
You have these cells, these glial cells called astrocytes, they're a bunch of different
glial cells, but astrocytes are one of them.
And the astrocytes have what a little called end feet.
And the end feet can touch the synapses, the connection points between neurons, and they
can also touch the vasculature.
And at night when you go to sleep, what these astrocytes do is they literally push out and
create more peri-vasculature space.
just means near, near the vascular.
They create more perivascular space
and they express a protein, a channel,
which is really cool, called Aquaporin 4.
Someone won the Nobel Prize
for discovering aquaporin 4.
And aquaporin 4 is under circadian regulation,
so it tends to be more active at night.
And when you go to sleep,
you basically create these spaces around the vascular
so that all the waste that's built up
in the cerebral spinal fluid can flow out along the vasculature
and get cleared from the brain.
Now, there's a whole process by which you go,
goes out and then from the brain
and then it travels in different ducks
and different pathways, it even can travel along
your cranial nerves out of your brainstem and out,
but it eventually all joins up in the blood supply,
just like the rest of the lymphatic flow.
So this is incredible, while you sleep,
you clear out the garbage from your brain.
Although I don't really like calling it garbage
because it's the natural byproduct
of healthy cellular function,
but I find it so interesting
that people didn't think that there was a lymphatic system
in the brain, or at least they couldn't find it.
But Dr. Netigard found it, and I'll just briefly tell you,
she wasn't the first one to find it.
The first person to find it, this is just kind of brief science anecdote here,
but it's pretty important to hear.
The first person to find it was a woman by the name of Patricia Grady.
She was at the University of Maryland, and she was doing some experiments,
and she discovered that the brain has something kind of like a lymphatic system.
She was doing some injections of this dye, which gets circulated.
And she noticed some of this dye was making it, you know, along the perivascular areas
and now into the surface of the brain and so on, basically the same observation that was made
in 2012 but much earlier.
And she talked to her colleagues about it and she talked about it at meetings and other groups
in particular, I won't mention names, two very large, famous scientific groups tried to replicate
her work but in a different experimental model and they tried to image the movement of die
out of the brain at night and they did not observe it.
reason they didn't observe it was not because they were bad scientists, but they made a mistake
they weren't aware of, which is they created a little hole in the skull in order to image
the movement of the dye in the brain. And they didn't close that hole in the skull with a lens
or something else to keep the pressure in. So all the pressure was gone so the lymph couldn't
move along at all. They didn't observe it. They concluded it wasn't there. And everyone believed
to them, not her, because they were the more famous larger groups. She moved off to a different
Field. Fortunately, she ended up at the National Institutes of Health, funded a lot of great
work, including the later work that Dr. Netagard used to discover that there is in fact a lymphatic
system in the brain. So give credit where credits do. And also remember, just because somebody
observed something and somebody else doesn't does not mean that it doesn't exist. Going
back to the lymphatic system, how can you encourage better clearance of waste product from
your brain at night, which is something you absolutely want to do?
if you want to have less brain fog and wake up from sleep,
perhaps even less sleep than you think you need,
feeling fresh and cognitively focused, et cetera.
Well, it turns out there have been a number of studies
looking at sleeping position.
Every animal, or at least every mammal,
puts its head down to sleep.
Okay, my bulldog Costello,
because he had a big thick skull,
he used to put his chin down and he'd sleep,
basically with his chin along the floor.
I saw a picture of giraffes.
I don't know if they all sleep like this.
Well, actually put their head down and sleep.
Perhaps, because lying on their side,
is tough. Some animals sleep on their side, some animals sleep on their back. Humans, of course,
can sleep in any of those different configurations. But all mammals make some attempt to put
their head down in sleep. Okay, so what sleeping position is best for humans to encourage
glymphatic drainage? And it turns out the answer is to sleep on your side. There haven't
been a ton of systematic studies of this, but if you were to compare sleeping on your back, sleeping
on your stomach, or sleeping on your side, as it relates to the efficiency of glymphatic drainage,
you would say that sleeping on your side is best so much so that there are even people
we're not in sleep studies that are putting on and what equates like a fanny pack and putting
the fanny in the fanny position I know everyone carries the fanny pack up front so it's not really
a fanny pack I don't use your imagination what it should be called but in any case there are
studies where people are taking the fanny pack putting it behind them so that they can't roll
onto their back at least not easily in sleep at night forcing them to sleep on their side either
the right or left side does not seem to matter.
So if you wanna experiment with this, you can.
I'm a back sleeper, sometimes a side sleeper,
what they call I think it's like crawling soldier stance
where I find myself, you know, if I wake up with one arm bent
and one extended, not like reaching out for the wall
or something like that, one knee bent.
But I actually have been making some effort
to sleep on my side as a reflection of what I learned
in the preparation for this episode
and the papers that I read about glymphatic clearance.
And I'm gonna make more of an effort to do that
because I personally would like to get by
with a little less sleep.
I love getting eight hours.
I generally get somewhere between six and seven.
I feel pretty good,
but I've noticed with each successive year
that I wake up a little bit foggier
from that six or seven hours of sleep
than I did previously.
And I haven't changed anything else dramatically.
What is changing?
My age.
What changes with age?
The amount of inflammatory molecules
that you release in the brain
as a consequence of its normal levels of activity,
And this has a detrimental feedback loop, right?
Same level of mental attention, same level of mental demand, more inflammatory response
because of more waste product created.
More clearance of that waste product, therefore, is a good thing for brain health,
so much so that there are really nice studies showing that, A, if you impair glymphatic
clearance by disrupting sleep or use some other method to impair glymphatic clearance,
like disrupt the aquaporin-4 channel, that you get more buildup of things like amyloid,
plaques, things associated with dementia like diseases, like Alzheimer's, but also more buildup
of inflammatory molecules like interleukins and TNF alpha generally, which make the brain more
susceptible to microstrokes and at a very low level are probably what's relating to this
thing that we call brain fog.
So I really would encourage everyone to try and emphasize side sleeping if you can.
If you are sleeping your normal ration or even if you're not getting your normal ration of sleep
to really try and optimize your sleep environment a bit
in order to improve glymphatic clearance.
A couple of things that we know reduce glymphatic clearance
are alcohol intake in the day and night before,
which reduces REM sleep, which reduces glymphatic clearance.
We know that exercise actually can have a beneficial effect
on glymphatic clearance provided it's not too late in the day,
not too much caffeine or anything with that exercise
to impair your sleep,
but cardiovascular exercise in particular
can improve glymphatic clearance later that night.
We know that keeping your sleep environment
cool, which optimizes sleep.
All the things that promote sleep
will promote lymphatic clearance.
But there are a couple things,
in particular sleeping on your side,
as well as perhaps elevating your feet a bit,
maybe five to 10 degrees,
just putting a pillow underneath your feet
to get a little bit of elevation of the feet
for more lymphatic clearance in the legs.
And some people have even hypothesized
that sleeping on your side with a pillow
that isn't super flat,
so your head at least isn't tilted down.
Remember, the lymphatic system
fights gravity all the time.
So you don't want your head falling back
at the very least.
and maybe instead of sleeping flat
or having your head falling back,
you have your head slightly tilted up.
Usually a pillow will accomplish that.
So all of these things are very simple to implement.
They're essentially zero cost to implement,
but all the studies of disrupting sleep
and looking at glymphatic clearance and waste products
and the downstream effects on cognition
and brain longevity all point in the same direction.
You need the waste cleared out of your brain at night,
which means getting great sleep,
and you also need the lymphatic system to be positioned,
literally, pun intended,
for you to get the maximum amount
of glymphatic clearance while you sleep.
And as it relates to the cosmetic effects
that I think most people want,
I don't think anyone wants to wake up
with puffy eyes and puffy face.
Sleeping with your head a little bit elevated
will also assist there, okay?
I talked to two dermatologists who confirm that,
that a lot of the puffiness that people are concerned about
with their eyes in the morning,
and they feel like they need to, you know,
ice underneath their eyes.
Some people even sell these patches that go on the eyes.
It's kind of interesting those patches, by the way.
The dermatologist I spoke to said,
the reason those patches
probably work is they just provide some gentle pressure
to encourage the lymph out of that area.
Maybe as simple as that,
something you probably could accomplish
with your fingers just as easily,
but it makes sense why those stickers would probably help.
A lot of them are lined with other things these days,
peptides and collagen and things to make them more attractive
as a commercial product, but you don't necessarily need those.
And there is this business of lymphatic massage
and fascial massage for the face.
And there, I have to say,
there are some very, very striking examples
of before and afters, of people who do just a little bit of pressure-based and, you know,
very specific, meaning in the proper order and in the proper locations for the neck.
We already talked about why the neck and clavicle region is so important under the jaw,
the face for the lymphatic system and for the fascia, which, as we talked about earlier,
is intimately related to those lymphatic vessels.
And especially in the face of the lymphatic vessels, that is the lymphatic capillaries
that innervate the eyelids, around the eyes,
those are going to be tiny, tiny, tiny,
and very easy to impinge, to pinch shut.
So the degree of pressure that one requires
at different locations in the face
and the proper order to do all that
is indeed very important.
And the before and afters of people's,
let's just call it what it is,
youthfulness and kind of levels of alertness appearance,
the height of the natural kind of resting place for the eyebrows,
you know, as opposed to sunken eyes
and sunken eyebrows, you know, open eyes
and even what appears to be like the cheekbones,
those can undergo very dramatic shifts
with proper fascial and lymphatic massage.
And those approaches are out there.
So one person who's considered one of the best experts in this area
and who has tutorials about this,
how you can use fascial and lymph drainage and massage
for the face in order to make it look more useful,
is somebody, by the way, I have no financial relationship to,
is Anastasia Beauty Fasha.
It's an account on Instagram,
I believe there are also accounts on other social media channels.
Put a link to it in the show note captions.
The before and afters that she shows there of the people who apply these methods,
which are non-surgical, non-drug, non-Botox methods.
She makes it very clear that's the case are absolutely striking.
I mean, you see some before and afters after two weeks, 30 days, 60 days that are like absolutely striking, really.
You know, how could that possibly be?
Well, when you learn how the limit.
lymphatic system works, when you understand about how lymph can pool, how fluid can accumulate
in the interstitial space, if it's not getting clear by the lymphatic system.
And when you understand the both superficial vessels and deeper vessels of the lymphatic
system are related to light touch at the surface in the proper directions and the drainage
out of the head and neck, as well as accessing the deeper lymphatic vessels that are associated
with the fascia, it all makes perfect sense.
There's absolutely no reason why those sorts of results couldn't be accomplished, but the order
of operations for something like that is very important.
It's not the case that one can just rub under the eyes and rub a bit on the forehead or
hold up the eyebrows.
If it were, of course, everyone would be doing it.
So it's nice that there are people such as Anastasia Beauty Fasha who are providing the methods
for people to do that.
So if you're interested in those methods, again, I have no financial relationship to them whatsoever,
It makes sense why they could, should, and indeed appear to work.
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The other thing about the lymphatic system
and appearance, not just puffiness of the face,
but swelling,
You know, we talk about water retention, edema, and we generally don't want that, right?
Most people don't want water retention.
You can clear a lot of water retention simply by hydrating well.
You know, you're going to urinate more.
You're going to balance the amount of fluid and salt appropriately.
I've done an entire episode about this.
You talk about kidney function, aldosterone, et cetera.
But the point is this.
A lot of fluid accumulation occurs in the interstitial space because the lymphatic flow is not sufficient.
The rate of the lymphatic flow is not sufficient.
I should say, hydration will definitely support lymphatic flow and drainage, okay?
This is one of the major reasons why you need to make sure you're drinking enough water.
It's very important to maintain proper blood volume and your lymphatic flow will be improved.
How much is enough water?
We've talked about that in previous episodes.
If you're exercising or sweating a lot, you can use the Galpin equation.
I'll put that in the show note captions if you really want to get technical.
For most people, the best thing to do is the following.
When you wake up, drink 16 to 32 ounces of water.
in addition to whatever other fluids you happen to be drinking.
Your Bimante, if you're me, coffee, perhaps if you're you,
or both for me on some days if I really need to get caffeinated,
but also drink enough water.
And then just make sure that every hour or two,
you drink 8 to 16 ounces of water.
It might seem like a lot.
Yes, you might take a few extra trips to the restroom,
but by doing that, you can ensure that your blood volume,
your sodium balance, as well as your lymphatic system
are operating about as well as they could be,
as long as you're doing all the other things
that we talked about to encourage your lymphatic system
to be flowing along.
So by now you're probably realizing
that a lot of the things that you and other people
are already doing are probably helping you in part
through the lymphatic system.
I think we all know that we should hydrate well.
I just gave you another reason why you should hydrate well
because of its effects on the lymphatic system.
Most everybody knows that we should be doing
cardiovascular exercise and resistance exercise every week.
For some people will be a bit more of one versus the other,
Some people are doing an equal amount of both.
You do resistance training to strengthen your muscles,
your bones, your tendons, to offset loss of power, speed,
and muscle that occurs as you age.
Also for the aesthetic reasons for many people.
Cardiovascular exercise, also for aesthetic reasons,
but also, of course, to improve the functioning
of your cardiovascular system, your heart, right?
Most people believe that you do cardio to improve your heart function.
You increase stroke volume of your heart, for instance,
how much blood you can beat out to your body
by strengthening and in some cases
even enlarging your heart a bit.
What most people probably don't realize
is that many of the positive effects of exercise,
in particular cardiovascular exercise,
occur because cardiovascular exercise
promotes what's called lymphoneogenesis,
the growth of new lymphatic vessels that innervate the heart,
remove waste products from the cells of the heart,
remember your heart cells are active,
all the time generating tons of waste,
also consuming tons of oxygen and nutrients,
And that needs to be cleared out.
And as we age, our heart gets less efficient
at clearing out that waste.
Cardiovascular exercise increases literally
the number of lymphatic vessels
that allow the drainage of those toxins away from the heart,
which greatly supports the cells of the heart.
But also, because this whole thing is a loop,
if you remember, the lymphatic system feeds back
to the venous blood supply, then that blood gets oxygenated
and it goes back to the heart.
The heart, of course, has supplied its own blood system, right?
The heart also needs oxygen and blood supply.
That's why we have so-called coronary arteries, right?
The arteries that serve the heart itself.
So by increasing the amount of lymphatic vessels,
you can increase the amount of lymphatic drainage
from the heart and the whole system functions much better.
In fact, there are several papers,
and I'll link to these in the show note captions.
I'll just read you the titles of these.
They make obvious what the conclusions are.
One is lymphoneogenesis contributes
to exercise-induced physiological cardiac growth.
The actual growth of the heart is enabled,
by the development of these new lymph vessels
to the heart that are induced by exercise.
So that's really cool.
And in addition, I hate to break it to you,
but for all of us, your heart gets less healthy as you age,
even if you stay very healthy as you age.
In part, that's due to inflammation
from the buildup of waste products within the heart.
There are other reasons for this too.
But it's now been demonstrated,
and here I'm quoting the title of this paper.
Again, I'll put a link to it in the show note captions.
Exercise-induced cardiac lymphatic remodeling
mitigates inflammation in the aging heart.
So this isn't the addition of new lymphatic vessels.
This is remodeling, the branching and extension of existing lymphatic vessels into areas that they weren't before
so they can pull waste from the cells in those area.
So the exact opposite of lymphodema where there's not enough drainage and there's buildup of waste products and fluid
and you end up with a bunch of issues there of local inflammation that makes that tissue sick
and then eventually can spread to other tissues.
It's quite serious.
This is the exact opposite of that.
You're getting more entry of the lymphatic vessels.
You're getting new lymphatic vessels from cardiovascular exercise.
And as a consequence, more clearance of waste product from the heart and the heart can function better.
So much so that at least the conclusion of this paper was that it significantly contributes to the offset of inflammation of the aging heart.
So again, this isn't pushing you to necessarily do something you're not doing already.
If you're doing your cardio, keep up your cardio.
You should also be resistance training.
We all should.
But if you're not doing cardiovascular exercise and you're just lifting, I know a number of people
that do that, they think, well, my heart rate gets up and, you know, I can hop on the bike every
once in a while and I don't get too fatigued.
My VO2 max is decent and this sort of thing.
Yeah, well, resistance training has its own set of benefits.
And it probably can positively impact the lymphatic system as well.
But there's just now, oh, so much data supporting the fact that regular cardiovascular exercise
can really improve heart function by improving lymphoneogenesis and the great.
growth and extension of existing lymphatic vessels
into areas of the heart that they weren't before
or that they were slowly receding from.
So I really encourage you to keep up that cardiovascular exercise
if you're already doing it and if you're not to start.
And if keeping your heart healthy is not incentive enough,
turns out that, here I quote again,
aerobic exercise improves clearance of amyloid beta
by the lymphatic system,
and this isn't a mouse model of Alzheimer's disease,
but this is just one example of many,
many examples whereby, as I talked about before,
exercise improves sleep,
sleep improves glymphatic clearance,
which clears away toxins in the brain,
which can offset age-related dementia
and a bunch of other negative effects like brain fog.
But in addition to that, exercise has direct effects
in increasing the amount of glymphatic clearance
that's occurring in those perivascular spaces
of the brain while you sleep.
So more and more evidence that we should,
yes, get enough sleep,
but we should also exercise not just
because it improves our sleep,
but because it can improve glyphatic clearance from the brain.
And this is probably the major reason, in my opinion,
why cardiovascular exercise done regularly improves brain function.
I know people love to talk about BDNF, brain-derived neurotrophic factor.
I've worked on brain-derived neutrophic factor.
I know a lot about brain growth factors.
I think it's super interesting.
And indeed, I think that high-intensity interval training,
anything where you experience a burn, a lactate accumulation in the muscles,
yes, can stimulate more BDNF.
And I think there's oh so much evidence that that's great.
But I think when you look at the literature carefully, most of the positive effects of regular cardiovascular exercise on brain function, working memory, declarative memory, focusability, and a number of other things occur because you're getting excellent glymphatic clearance during sleep, and you're getting just more clearance of waste products even in wakefulness.
So here we are again, exercise, exercise, exercise, sleep, sleep.
and to really hit on this theme of things that you may already be doing,
and if you're not, you probably should.
I want to just briefly mention one or two other things.
First of all, this wouldn't be a Huberman Lab podcast episode
if we didn't talk about light.
And no, I'm not going to tell you to get morning sunlight in your eyes
to set your circadian rhythm and boost your morning cortisol
because I've said that many times before,
and you should already be doing that.
And if you're not, you should do it.
However, there is a place for light,
in particular long wavelength light
in supporting lymphatic health.
So perhaps you know, perhaps you don't.
Light has many different wavelengths.
Short wavelengths tend to be things like UV, blue light, green light.
Longer wavelength light is red light,
near infrared and infrared light.
You can't see infrared light.
Pit viper's can, you can't.
However, long wavelength light and short wavelength light
and everything in between does come from the sun.
When the sun is low in the sky,
such as near sunrise and around sunset,
you see more of the long wavelength light,
in the form of oranges, reds, pinks, and so forth.
And anytime the sun is out, you can feel the warmth of the sun,
especially when there's not too much overcast clouds in the way.
And that warmth from the sun, that's infrared light.
Okay, the light you can't see but feels warm, that's infrared light.
The red light, of course, is red light.
Near infrared is somewhere in between.
Turns out that the long wavelengths of light that come from the sun
or that come from so-called red light devices,
which most commonly are not just red light,
but they're red light near infrared and infrared,
what we refer to as somewhere between about 620 and maybe 1,000 nanometers,
so that's long wavelengths.
By comparison, short wavelengths would be down to the 300s
and 400s and 500s, but the long wavelength light
of say 620 nanometers all the way out to,
usually it's about 850 nanometers that comes from a red light device,
near infrared light device, infrared light device.
That can penetrate deep into the skin,
so it has effects on the skin,
has effects deep to the skin,
and there are a lot of different ways
that it can affect our health,
but one of the main ways
is that improves the mitochondrial function of cells.
Now, there's a lot of data out there
now showing that red light exposure
from a red light device
and even from the sun
can improve wound healing in the skin,
reduce symptoms of acne,
and can reduce inflammation.
There are now also data showing
that long wavelength light exposure
can reduce lymphodema
in conditions like people who are
being treated for breast cancer or can simply reduce inflammation for people that are not
suffering from cancer or full-blown lymphidema but have some puffiness of the face or some
other tissue that's experiencing swelling long wavelength light can help and that much of that effect
is by way of improvements of blood flow to that area as well as improvements in mitochondrial function
and that's because the long wavelength light can actually have impact on the skin itself and deep
to the skin.
And I've talked about the mechanism before,
but to make a long story short,
the long wavelength light, those photons,
can actually impact the electrons on mitochondria
and for lack of a better way to put it,
charge the mitochondria, which leads to more ATP,
more seller energy, and so forth.
What's interesting is that there are now more and more data
showing that long wavelength light exposure to the skin
can reduce inflammation, improve skin appearance,
reduce acne, et cetera.
in part by improving the function of the lymphatic system.
And it does that, apparently, through the same mechanism
that it does to improve skin cells
and the circulatory system for blood,
meaning the capillaries and blood vessels and so forth.
So when we hear that red light devices,
near-infrared light devices and infrared saunas
and getting some low solar angle sunlight in our skin,
either near sunrise and perhaps also in the evening,
at sunset or in the late afternoon,
is beneficial for our skin,
It appears that that quote unquote benefit for the skin is direct to the skin cells, also
to the vascular cells that are delivering blood, and also to the lymphatic vessels that
are removing waste from the general area.
So the point is that long wavelength light exposure, either from a device or from low solar
angle sunlight, can reduce inflammation in your skin and can improve appearance.
And in part, that effect is occurring through the lymphatic system.
And in terms of protocols, the typical 10 to 30 minutes of morning sunlight viewing, as well as
getting some long wavelength light on your skin
at a time where the UV index isn't too high,
so maybe in the late afternoon or evening,
can be very beneficial.
If you're trying to decide whether or not
to get long wavelength light exposure
for sake of appearance and lymphatic clearance
from a device or from the sun,
just keep in mind that the sun always includes
some UV in it, right?
UV exposure is going to be highest
in the middle of the day,
less when the sun is low in the sky,
near sunrise, and near sunset.
A long wavelength light device
that delivers red light near infrared
And infrared light, of course, has no UV in it.
So you're just purely getting the benefits of the long wavelength light for your lymphatic system
and the other systems that are local to the skin.
Okay, so we've taken quite the tour through the lymphatic system.
And I'm guessing for most of you, this is the first time that you've explored or heard about
the lymphatic system in depth.
And I just want to underscore, again, what an incredible system it is.
It's intimately related to every organ and tissue in our entire body.
and it's crucial for the removal of waste from those tissues,
and it's crucial for immune surveillance.
So if nothing else, I hope that you can now thoroughly appreciate
this incredible system that is the lymphatic system.
It's not just a passive system,
and yet, as you recall, it does not have a pump.
So you need to do things to help move that lymphatic fluid along
to support all its critical roles.
In researching this episode,
I personally was just blown away
by how many important roles the lymphatic system plays,
and I was surprised that I hadn't heard
about a lot of these important roles before.
And I think in large part, that's because it's only recently in the last decade and a half
or so that we've really come to appreciate just how critical the lymphatic system is,
for instance, in the brain.
And the relationship between brain and body dynamics and the circulatory system that make
it central to everything.
So I'm amazed by it.
I hope you're amazed by it.
And I hope you will indeed take action to support your lymphatic system because it's super
important.
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