Huberman Lab - Essentials: Protocols to Improve Vision & Eyesight
Episode Date: April 24, 2025In this Huberman Lab Essentials episode, I discuss the science of vision and share simple, effective tools to enhance eyesight and preserve eye health. I explain how the eyes and brain work together ...to process light, color and motion using specialized structures such as the retina and photoreceptors, and why conditions like nearsightedness, visual hallucinations and lazy eye occur. I also cover specific visual protocols to increase alertness and focus during work, improve sleep, and support visual health. Additionally, I highlight key vitamins essential for vision and discuss supplements such as lutein and astaxanthin for maintaining long-term eye health. Huberman Lab Essentials are short episodes—approximately 30 minutes—focused on essential science and protocol takeaways from past Huberman Lab episodes. Essentials will be released every Thursday, and full-length episodes will continue to be released every Monday. Read the episode show notes at hubermanlab.com. Thank you to our sponsors AG1: https://drinkag1.com/huberman Eight Sleep: https://eightsleep.com/huberman ROKA: https://roka.com/huberman Timestamps 00:00:00 Huberman Lab Essentials; Improve Vision 00:01:01 Eyes, Lens, Eyelashes 00:02:40 Retina, Photoreceptors & Brain 00:06:34 Eyesight & Subconscious Vision Effects 00:07:25 Sponsor: Eight Sleep 00:09:02 Time of Day & Retina, Tool: Morning Sunlight Exposure 00:12:02 Tool: Reduce Nearsightedness & Outdoor Time 00:12:33 Accommodation, Focus, Tools: Panoramic Vision; Upward Gaze 00:16:20 Sponsor: AG1 00:18:14 Improve Vision, Tools: View Distances; Smooth Pursuit; Accommodation 00:21:08 Binocular Vision, Lazy Eye, Children 00:23:57 Hallucinations & Visual System 00:25:09 Sponsor: ROKA 00:26:57 Improve & Test Vision, Tool: Snellen Chart 00:29:03 Support Vision, Tool: Vitamin A & Vegetables 00:30:23 Supplements, Lutein, Astaxanthin 00:32:52 Recap & Key Takeaways; Cardiovascular System Disclaimer & Disclosures
Transcript
Discussion (0)
Welcome to Huberman Lab Essentials,
where we revisit past episodes
for the most potent and actionable science-based tools
for mental health, physical health, and performance.
I'm Andrew Huberman, and I'm a professor of neurobiology
and ophthalmology at Stanford School of Medicine.
This podcast is separate from my teaching
and research roles at Stanford.
It is, however, part of my desire and effort
to bring zero cost to consumer information
about science and science related tools to the general public.
Today's episode is going to be all about vision and eyesight, a topic that's very near and
dear to my heart because it's the one that I've been focusing on for well over 25 years
of my career.
When we hear the word vision, we most often think about eyesight or our ability to perceive
shapes and objects
and faces and colors.
However, our eyes are responsible for much more than that,
including our mood, our level of alertness,
and all of that is included in what we call vision.
What is vision?
Well, vision starts with the eyes.
What is vision? What is vision?
Well, vision starts with the eyes.
We have no what's called extraocular light perception.
While it feels good to have light on our skin,
while it feels good to be outside in the sunlight
for most people, the only way that light information
can get to the cells of your body
is through these two little goodies
on the front of your face.
And for those of you listening,
I'm just pointing to my eyes.
As many of you have heard me say before
on this and other podcasts, your eyes,
in particular your neural retinas
are part of your central nervous system.
They are part of your brain.
They're the only part of your brain
that sits outside the cranial vault.
In other words, you have two pieces of your brain
that deliberately got squeezed out of the skull
during development and placed in these things we call eye sockets. Now the eyes have a lot of your brain that deliberately got squeezed out of the skull during development and placed in these things
we call eye sockets.
Now the eyes have a lot of other goodies in them
that are very important.
And those are the goodies
that we're going to focus on a lot today.
There's a lens to focus light precisely to the retina.
There are also other pieces of the eye
that are designed to keep the eye lubricated.
You also have these things that we call eyelashes.
Most people don't know this,
but eyelashes are there to trigger the blink reflex.
They aren't just aesthetically nice.
Eyelashes are there so that if a piece of dust
or something starts to head towards the cornea,
the eye blinks very, very fast.
It's the fastest reflex you own.
We also have these things called eyelids.
Now, eyelids might seem like the most boring topic of all,
but they are incredibly fascinating.
Today we're going to talk about how you can actually use
your visual system to increase your levels of alertness
based on the neural circuits that link your brain stem
with your eyelids.
So let's talk about what the eyes do for vision.
Basically, the entire job of the eyes
is to collect light information
and send it off to the rest of the brain
in a form that the brain can understand.
Remember, no light actually gets in
past those neural retinas.
It gets to the neural retina
and we have specific cells in the eye called photoreceptors.
They come in two different types, rods and cones.
Cones are mainly responsible for daytime vision
and the rods are mainly responsible for vision at night
or under low light conditions, generally speaking.
These photoreceptors, the rods and cones
have chemical reactions inside them
that involve things like vitamin A
and that chemical reaction converts the light
into electricity.
Within the eye, within the retina,
there are then a series of stages of processing
and that information eventually gets sent into the brain
by a very specific class of neurons.
They're called retinal ganglion cells.
Now, here's what's incredible.
I just want you to ponder this for a second.
This still blows my mind.
Everything you see around you,
you're not actually seeing those objects directly.
What you're doing is you're making a best guess
about what's there based on the pattern of electricity
that arrives in your brain.
Now that might just seem totally wild
and hard to wrap your head around,
but think about it this way,
because this is the way it actually works.
Let's take an example of a color like green or blue.
You have cones in your eye that respond best to the wavelength of light
that is reflected off, say a green apple.
So you don't actually see the green apple.
What you see is the light bouncing off that green apple
and goes into your eye and you see it
and perceive it as round and green,
but not because you see anything green,
no green light arrives in your brain.
What happens is your brain actually compares
the amount of green reflection coming off that apple
to the amount of red and blue around it.
What the brain is receiving is a series of signals,
electrical signals, and it's comparing electrical signals
in order to come up with what we call these perceptions.
Like I see something green, a green apple, or I see red.
So that's what I'd like you to understand
about the way the eye communicates with the brain.
I would also like you to understand
that the brain itself is making these guesses
and that those guesses are largely right.
How do I know that?
Well, they're right because when you reach out
to grab a glass, most of the time you grab the glass
and you don't miss, right?
Most of the time when you make judgments
about the world around you based on
your visual impression of them,
it allows you to move functionally through the world.
So the brain is doing these incredible things.
It's also creating depth, a sense of depth,
even though what arrives from the retina
is essentially a readout of a two-dimensional flat image.
Your eyes are slightly offset from one another.
So that, for instance, if I look at you,
if you were standing right in front of me right now
and I were to look at you, the image of your face,
the light bouncing off your face to be more precise,
lands on one eye in a slightly different location
than it does in the other eye.
And then the brain does math.
It basically does the equivalent of geometry
and trigonometry and essentially figures out
how far away you are from me, which is just incredible.
So the brain does all this very, very fast.
And the brain uses about 40 to 50%
of its total real estate for vision.
That's how important vision is.
Now I want to talk about the other aspect of vision,
which is the stuff that you don't perceive,
the subconscious stuff.
And then we'll transition directly
into how you can use light and eyesight
to control this other stuff, because it's very important.
And that other stuff is mood, sleep, and appetite.
And there are ways in which you can use
the same protocols that I will describe
in order to preserve and even enhance your vision,
your ability to see things
and consciously perceive them.
So the protocols we will describe have a lot of carryover
to both conscious eyesight
and to these subconscious aspects of vision.
And I just want you to understand a little bit more
about the science of seeing of eyesight and vision.
And then all the protocols will make perfect sense.
I'd like to take a quick break
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So as amazing as eyesight is,
it actually did not evolve for us to see shapes
and colors and motion and form.
The most ancient cells in our eyes,
and the reason we have eyes,
is to communicate information about time of day
to the rest of the brain and body.
Remember, there's no extraocular photoreception.
There's no way for light information to get to all the cells of and body. Remember, there's no extraocular photoreception. There's no way for light information
to get to all the cells of your body.
But every cell in your body needs to know
if it's night or day.
Now, I talked a little bit about this
in the episodes on sleep.
And this episode is not about sleep.
But I want to emphasize that there is a particular category
of retinal ganglion cell.
Remember the neurons that connect the retina to the brain.
These are so-called melanopsin retinal ganglion cells
named after the opsin that they contain within them.
They are essentially photoreceptors.
Remember before I said there are photoreceptors
and then these ganglion cells?
Well, these melanopsin cells, as the name suggests,
melanopsin, have their own photoreceptor built inside them.
These cells, retinal ganglion cells,
communicate to areas of the brain
when particular qualities of light
are present in your environment
and signal to the brain, therefore,
that it's early day or late in the day.
They regulate when you'll get sleepy,
when you'll feel awake, how fast your metabolism is,
excuse me, your blood sugar levels,
your dopamine levels and your pain threshold.
These melanopsin ganglion cells have been shown
to set the circadian clock and to respond best
to the contrast between blue and yellow light
of the sort that lands on these cells
when you view the sun when it's at so-called low solar angle,
when it's low in the sky,
either in the morning or in the evening.
What does all this mean?
The most central and important aspect of our biology
and perhaps our psychology as well
is to anchor ourselves in time,
to know when we exist.
We know time at a biological level
based on where the sun is.
What does this mean for a protocol?
It means, see, get that light in your eyes early in the day
and anytime you want to be awake.
So try and get as much sunlight in your eyes
during the day as you safely can.
You need a lot of this light
in order to trigger these melanopsin cells,
which would then trigger your circadian clock,
which sits above the roof of your mouth,
which will signal every cell in your body,
including temperature rhythms, et cetera.
So first things first,
your visual system was not for seeing faces, motion, et cetera.
The most ancient cells in your eye,
which are there right now as we speak,
are there to inform your body and brain about time of day.
So you want to get that bright light early in the day.
Absolutely essential, two to 10 minutes.
Now, here's another reason to do this.
Getting two hours a day of outdoor time without sunglasses
has a significant effect on reducing the probability
that you will get myopia.
Now, myopia or nearsightedness has to do with the way
that the lens focuses light onto the retina.
So remember your eye is an optical device.
You have lenses in your eyes
and those lenses need to move.
It's not a rigid lens like a glass lens,
it's a dynamic lens.
The eye can dynamically adjust where light lands
by moving the lens and changing the shape
of the lens in your eye
through a process called accommodation.
And if you understand this process of accommodation,
you not only can enhance the health of your eyes
in the immediate and long-term,
but you also can work better.
You'll be able to focus better on physical and mental work.
You will be able to concentrate for longer.
So much of our mental focus,
whether or not it's for cognitive endeavors
or physical endeavors,
is grounded
in where we place our visual focus.
Okay, what we look at and our ability
to hold our concentration there
is critically determining how we think.
Now, accommodation is our ability to accommodate
to things that are up close here or further away.
And the way this works is that the iris
and the musculature and a structure called the ciliary body
move the lens.
So when you look far away, okay,
when you see things far away,
your lens actually relaxes, it can flatten out.
And you'll notice that it actually is relaxing
to look at a horizon.
Whereas if I look at something up close to me,
like this pen or my phone or a computer screen
or this microphone, it takes effort.
You'll sense the effort.
Now, some of that effort is actually eye movements
because you have muscles that can move your eyes
within their sockets.
But a lot of the work, quote unquote, is neural work
of the muscles having to move and contract
such that the lens actually gets thicker
in order to bring the light to the retina
and not to a location in front of it or behind it,
so-called accommodation.
Now, you might say,
why are you telling me about accommodation?
Well, these days we're spending a lot of time
looking at things, mainly our phones up close
and computers up close and we are indoors.
In other words, you are not giving your lens
the opportunity to flatten out and for these muscles
to relieve themselves of this work,
but you are also training your eyes
to be good at looking at things up close and not far away.
And as a consequence,
you are reshaping the neural circuitry in your brain
and it is not good.
You want to get outside,
not just to lighten the load on your mind
or to think about other things,
but to maintain the health of your visual system.
In other words, you want to exercise these muscles
and that involves both the lens moving
and getting kind of thicker and relaxing that lens.
And the relaxation of the lens is actually
one of the best things you can do
for the musculature of the inner eye.
So what's the protocol?
You might be surprised,
but for every 30 minutes of focused work,
you probably want to look up every once in a while
and just try and relax your face and eye muscles,
including your jaw muscles,
because all these things are closely linked
in the brainstem,
and allow your eyes to go into so-called panoramic vision
where you're just not really focusing on anything,
and then refocus on your work.
If you are feeling tired,
it actually can be beneficial to the wakefulness systems
of the brain, including the locus coeruleus
and these areas that release norepinephrine
to actually look up, to actually look up
toward the ceiling.
You don't want your chin all the way back,
but to look up and to raise your eyes toward the ceiling
and to look up and try and hold that for 10 to 15 seconds.
It actually triggers some of the areas of the brain
that are involved in wakefulness.
So if you're somebody who's falling asleep at your work,
this can be very beneficial.
When things are up, we tend to be alert.
When everything's focused down, including your eyes,
it tends to have a more suppressive or sedative type signaling
to the deeper centers of the brain.
I'd like to take a quick break
and acknowledge our sponsor, AG1.
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I started taking AG1 way back in 2012,
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How can you improve your vision?
How can you get better at seeing things?
Well, one way is to make sure that you spend
at least 10 minutes a day total, at least,
viewing things off in the distance.
So that would be well over half a mile or more.
Try and see a horizon.
Try and get your vision out to a location
that's beyond the four walls of your house or apartment
or the doors of your car and the windshield of your car.
I know that can be hard to do, but it's very valuable.
So try and see at a distance
because it's good for your eyesight.
It'll keep this lens nice and elastic
and the muscles nice and strong that move the lens.
And it has this relaxing component to it.
Now, our visual system is exquisitely tuned to motion,
not just our self-generating motion,
but the motion of things around us.
And one of the things that it does
is something called smooth pursuit.
Smooth pursuit is our ability to track individual objects,
moving as the name suggests, smoothly through space
in various trajectories.
You can actually train or improve your vision
by looking at smooth pursuit stimuli.
And that sounds really boring.
Remember the brain follows the eye.
It follows the movements of the eye.
It has to deal with that.
And the neural circuits within the brain
have to cope with changes in smooth pursuit.
So if you're doing a lot of reading up close,
you're not viewing horizons,
you're not getting a lot of smooth pursuit type stimulation
from your life,
or you're just getting it within the confines
of a little box on your phone, your vision will get worse.
The idea is that you want to use the visual system regularly
for what it was designed for,
and smooth pursuit is a great way to keep the visual
and motion tracking systems of the brain and the eye
and the extraocular muscles working
in a really nice coordinate fashion.
So what does this mean?
The tool is spend two to three minutes doing smooth pursuit.
There's some programs on YouTube.
You can just look up smooth pursuit stimulus,
practice accommodation for a few minutes,
maybe every other day.
Just bring something in close.
You'll feel the strain of your eyes doing that.
Move it out.
You'll feel a relaxation point.
Move it past that relaxation point
where you will have to do what's called a virgin's eye
movement to maintain focus on that location
as it moves out.
Bring it back in.
Practice that, practice accommodation,
and then be sure to give your eyes some rest.
Get outside, look at a horizon or do nothing.
Just kind of let your eyes go soft.
I guess what the yogis would call soft gaze.
Practice a little bit of smooth pursuit.
You don't have to be neurotic about this,
but if you do this often enough,
meaning every other day, every third day or so,
you can be the strange person on the plane
or in the classroom doing this.
People might chuckle or look at you funny or tease you,
but that's okay because you'll be able to see
when they are losing their vision.
So you'll get the last laugh.
Let's talk about binocular vision and lazy eye.
The young brain up until about age seven,
but maybe even extending out until about age 12
is extremely vulnerable to differences
in ocular input between the two eyes.
My scientific great grandparents won the Nobel prize
for discovering so-called critical periods,
periods of time in which the brain is more plastic,
more able to change.
Those two guys, David Huebel and Torrenson Wiesel,
thank you, David and Torrenson,
forever changed the face of visual neuroscience
and forever changed the way we think about treatment
of the young brain.
It used to be thought that you wouldn't want to do a surgery
on a young kid because of risk of anesthesia
in young individuals.
But we now know that you need to repair these imbalances
that even a few hours of occluding one eye early in life
can lead to permanent, unless something's done,
permanent changes in the way that the brain perceives
the outside world, such that when that eye is opened up again,
the brain actually can't make sense of anything
that's coming through it.
It shuts down that visual pathway somehow.
So what does this all mean in terms of protocols?
If you're a young person,
do your best to get really good binocular vision,
not just at level of your phone or your tablet,
but also at distance.
You will build strong binocular visual machinery
in the brain and at the level of the eyes
and the eye musculature.
Now, if you're somebody who did have an occlusion,
what's needed is to cover up the other eye
to create an imbalance so that the weak eye,
the so-called lazy eye,
this is sometimes referred to as amblyopia,
that eye has to work harder.
Now, you might ask,
what happens if you cover both eyes early in life?
There are some like retreats and stuff
where people go into caves with absolutely no vision.
It creates hallucinations.
We'll talk about why that is in just a moment.
But here's my suggestion,
try and get balanced visual input through the two eyes.
Almost everybody has a dominant eye.
It usually doesn't relate to your dominant hand,
although it can.
And so for me, if I cover up my right eye, has a dominant eye. It usually doesn't relate to your dominant hand, although it can.
And so for me, if I cover up my right eye,
I see much less well, much more poorly.
It's a little bit fuzzy and I have to work harder
in order to see the camera, for instance,
than if I cover up my left eye.
And if you do have strong imbalances between the two eyes,
which can be caused by cataract and lens issues,
can be caused by neuromuscular issues, et cetera,
to try and get those dealt with as early as possible
by contacting a really good ophthalmologist
and ideally a neuroophthalmologist.
It's very common for young children, babies,
to have an eye that was strabismus
that either deviates out or that deviates in.
It is important to correct that
if you would like to have balanced vision
between the two eyes and for the brain to respond
equally to the two eyes and to have,
I would say high fidelity quality vision.
Hallucinations are a property of the visual system.
And it was always thought that hallucinations arise
because of over activation or activation
of certain aspects of the visual system.
I just briefly want to mention a paper
that was published by my good friend
and phenomenal scientist and physicist for that matter.
Chris Neal, who's up at the University of Oregon in Eugene,
they studied LSD-like compounds and discovered
that hallucinations actually occur
because portions of your brain become underactive.
The visual portions of your brain are under stimulated.
This is probably why when people go into these cave retreats
something I've never done, I don't think I ever will do
where it's completely black,
pretty soon they start hallucinating.
They start seeing things
even though there's nothing there.
The visual system is desperate to make guesses about what's out in the world. It's like the eager beaver of your brain. It's like, what's nothing there. The visual system is desperate to make guesses
about what's out in the world.
It's like the eager beaver of your brain.
It's like, what's out there?
What's out there?
What's out there?
So it turns out that hallucinations are an under activation
of the visual system and then a compensatory,
a compensation by which the visual system creates activity
and hallucinations.
So if you're in the dark long enough,
you start to hallucinate and see things. So that's a little note about hallucinations. So if you're in the dark long enough, you start to hallucinate and see things.
So that's a little note about hallucinations.
I'd like to take a quick break
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One of the things that you can do to improve your vision
and it's also kind of fun,
is to put a Snellen chart in your home.
A Snellen chart is that list of letters.
If you go to the dreaded Department of Motor Vehicles,
have you cover up an eye, read the letters on the chart.
The letters of course get smaller and smaller.
They're trying to figure out roughly what your vision is.
Cover up the other eye, you'll do that.
This is something that's not often mentioned,
but your performance on the Snellen chart will vary
depending on time of day,
because your level of fatigue and your ability
to control that accommodation and other mechanisms
of the eye muscles will vary.
So you can take it as an average.
It's also a good thing if you're going to get
your vision tested for corrective lenses
or maybe you're going to do laser surgery
or something of that sort.
If you're thinking about any of that,
to really get it measured by a professional,
get your vision tested by somebody
who really understands vision,
like an ophthalmologist or a really good optometrist.
If you put a Snellen chart in your home,
you can do that as part of your visual training.
Now, this might seem excessively nerdy,
but what is more important than your eyesight?
Eyesight is so vital.
It's right up there with movement
and our ability to move, to generate,
to get up out of chairs and to walk and to run
and to take care of ourselves.
Eyesight and movement are the main ways
that we are able to take care of ourselves
and take care of others.
When you start having compromised eyesight
or compromised movement, people need to take care of us
and we become much more challenged
in moving through our daily life.
So while it might seem nerdy
to have a Snellen chart in your home
or to do a smooth pursuit exercise a couple of times a week
or to get outside for a few hours a day
and do your reading or your laptop work there,
preserving your eyesight and preserving your vision
is one of the most life enhancing
or quality of life enhancing things that you can do.
Now, of course there are genetic factors
and there are injury related factors
that can compromise eyesight and our ability to see.
And of course, the things I'm talking about today
aren't going to solve all those issues,
but they can have a tremendous positive impact
if you're willing to do just a little bit of work.
So I do want to talk about a few other things
that can perhaps improve vision.
I want to dispel a few myths about stuff to take
to improve vision.
So now you understand a lot about the biology of vision.
You understand that light has to arrive at the retina
and get converted into electrical signals.
That process requires things like vitamin A,
a fat soluble vitamin.
It requires things like the carotenoids.
That metabolic cascade, the biochemical cascade
is essential for vision.
And this is why you've been told
that carrots help you see better
because they're high in vitamin A.
There are a few simple things you can do
to support your vision.
First of all, it is true that eating vegetables,
the dark leafy vegetables and things like carrots
that have vitamin A in abundance and eating them
in close to their raw form.
So naturally occurring foods that contain a lot
of vitamin A in their raw form can help support vision.
Now, does that mean that if you ingest
super physiological amounts of that stuff
that it's going to make your vision that much better?
No, but you do need a threshold level of vitamin A
in order to see, and in order to see well.
Now, there's a lot of excitement nowadays
about supplementation to help support the health
of the visual system.
But I want to talk about a molecule
that's in a lot of supplements to support vision.
And there are some really good data on, and that's lutein.
What is this lutein stuff?
Well, lutein is in the pathway that relates to vitamin A and the formation of the opsin,
the photopigment that captures light in the back of your eye,
literally absorbs light, pigment in your eye,
and converts that into electrical signals
and allows you to see.
And there is some evidence,
I spoke to our chair of ophthalmology,
there is some evidence through quality peer-reviewed studies
that supplementing with lutein can help offset
some of the detrimental effects
of age-related macular degeneration,
but, I want to emphasize but, or emphasize however,
only for individuals with moderate
to severe macular degeneration.
For people that have normal vision
or with just a low degree of macular degeneration,
these studies did not see a significant improvement
of vision from supplementing with lutein.
And the other one is A-S-T-A-X-A-N-T-H-I-N.
What is Astexaxin?
It's a really interesting compound.
It's the red pink pigment found in various seafoods.
I'm not a big seafood fan, but like certain fish,
like you'll see at the fish market,
will have that red pink pigment.
And it's also in the feathers of flamingos.
It's structurally similar to beta carotene.
So it's very pro-vitamin A,
but it has some chemical differences
which may make it safer than vitamin A.
Remember vitamin A is a lipid soluble vitamin
so it can be stored in our body for long periods of time.
What is the deal with this astaxin?
You know, what are its drawbacks?
Well, it has a number of different effects,
but the most notable for sake of this episode
is the one on ocular blood flow.
It does seem to increase the amount of ocular blood flow,
so the blood supply to the eyes.
So that makes it an interesting compound.
It's also been shown to have positive effects
on things like skin elasticity, skin moisture,
skin quality, et cetera,
probably due to its effects on blood flow.
So lutein, astaxin, A-S-T-A-X-A-N-T-H-I-N.
So everything I've talked about today relates to studies
that were done and published in quality peer review journals.
That doesn't necessarily mean you want to run out
and start taking the stuff that I've described
or even doing the protocols I've described.
I've given you an array, a palette, a buffet, if you will, of things that you could do
to try and enhance or support your vision,
depending on how good your vision is,
your family history of vision and vision loss,
your occupational hazards, you know,
people that work with metal filings
that are flying out of machines
are going to have a higher degree of,
of vision, you know, risk to the visual system,
then will people who just do office work,
although if you're doing a lot of office work,
chances are you're not getting a lot of long view vision,
your accommodation mechanisms are going to start
to suffer over time.
I think we can reliably predict that.
So I tried to give you an array of behavioral tools
and we did touch upon some supplementation tools.
I'd be remiss if I didn't say that
because blood flow is so critical for the neurons of the eye,
remember these are the most metabolically active cells
in your entire body, the cells within your retina,
because blood flow is required to get them the energy
and nutrients they need.
Having a healthy cardiovascular system, right?
Doing endurance work, doing strength training work
regularly is going to support your eyes and your brain
and your vision.
It's indirect, but it's essential, right?
It's necessary, but it's not going to be sufficient.
You're going to have to do other things
to support your eyesight as well.
But having a healthy cardiovascular system
because it's going to deliver blood and oxygen and nutrients
to this incredible apparati on the front of your face, these two pieces of brain,
is going to support your overall brain health
and vision over time.
Last but not least, I want to thank you
for your time and attention today,
your willingness to learn about vision
and the visual system and the various things
that you can do to help support the health
and functioning of your visual system.
And of course, I want to thank you
for your interest in science.