Huberman Lab - AMA #6: Eye Health, Why We Yawn & Increasing Motivation
Episode Date: April 27, 2023Welcome to a preview of the sixth Ask Me Anything (AMA) episode, part of the Huberman Lab Premium subscription. The Huberman Lab Premium subscription was launched for two main reasons. First, it was l...aunched in order to raise support for the standard Huberman Lab podcast channel — which will continue to come out every Monday at zero-cost. Second, it was launched as a means to raise funds for important scientific research. A significant portion of proceeds from the Huberman Lab Premium subscription will fund human research (not animal models) selected by Dr. Huberman, with a dollar-for-dollar match from the Tiny Foundation. Subscribe to Huberman Lab Premium at https://hubermanlab.com/premium Timestamps (00:00:00) Introduction (00:01:53) What Are the Best Eye Exercises, Supplements, Food, Protection Practices for the Eye? (00:33:55) Huberman Lab Premium In the full AMA episode, we discuss: Why We Yawn and Don't Yawn During Sleep How to Stay Motivated and Overcome Lethargy in Learning Title Card Photo Credit: Mike Blabac Disclaimer
Transcript
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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 is an Ask Me Anything episode, or AMA.
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Lab podcast premium subscribers, you can still hear the first 20 minutes of today's episode
and determine whether or not becoming a premium subscriber is for you. And now without further
ado, I will answer your questions.
And as always, I will strive to be as thorough as possible,
as clear as possible, and as concise as possible.
The first question is about eye health,
in particular eye health protocols
for people that are aging,
but eye health protocols for people in general.
The question is, I'm noticing that my vision,
both close and far, is deteriorating.
What are the best eye exercises, eye health behaviors,
supplements, et cetera, for the aging eye?
So the answer I'm about to provide
applies to everybody regardless of age,
which is you want to make sure that you view things
both close up and far away across your day.
Many, many people nowadays spend a lot of time
looking at their smartphone, looking at the computer screen,
looking at books and paper.
In other words, looking at things
somewhere between nine inches away from their face
and their eyes, maybe two and a half feet away
from their face and eyes.
This is an unprecedented event in human history
as far as we know,
because it wasn't until the advent of the smartphone
that we've spent so much time looking at screens
at close range relative to looking at things
at further distances from our face throughout the day.
In fact, it should come as no surprise
that the incidence of myopia, of nearsightedness,
is increasing dramatically around the world,
but is increasing particularly fast in children
and in young adults and even in adults
who are viewing things at very close range,
so two and a half feet or less.
Now, I am not saying that viewing things at two and a half feet or less. Now, I am not saying that viewing things
at two and a half feet or less is bad for your eyes.
That is simply not the case.
However, if you want your vision to be maintained
or even improve, it's going to be very important
for you to view things at a distance as well
for ideally several hours per day.
And I realize some people just simply won't accomplish this.
In fact, I'd like everyone to just take a moment
and do a rough estimation in your head per day. And I realize some people just simply won't accomplish this. In fact, I'd like everyone to just take a moment
and do a rough estimation in your head
of how much time during your daytime activities
you are viewing things at say two and a half feet
or three feet or less.
So smartphone, computer screen, paper, books, et cetera,
versus viewing things that are four feet away,
eight feet away.
So maybe conversation across a table
with another human being, remember those?
Some of us are doing that more now that we seem
to be emerging from this whole pandemic phase.
However, many people are still mostly just viewing things
within very close range.
And in fact, if you were to ask yourself,
how much time do you spend looking at things
at the distance of many hundreds of feet
or taking a walk where you're not looking at any screen
and you're simply letting visual images
or the visual imagery rather pass by on your eyes,
I think for most of us,
that number is getting progressively smaller and smaller
with each passing year.
So this is an issue because the structure of the eye is such that the lens of
the eye can move, but also that the length of the eyeball from front to back is actually impacted
by how close or how far you happen to view things during the course of your day, especially during
development. There's a classic experiment that I'd like to just briefly describe to you,
during development. There's a classic experiment
that I'd like to just briefly describe to you,
which has been performed in chickens,
it's been performed in mice,
it's also been performed on humans,
where a visual occluder or a visual image,
so an occluder is just a black sort of screen
or piece of cardboard,
or an image, maybe some black and white checks or checkers
are placed at a certain distance from the eye,
either up close or far away.
And the impact of that on the length of the eyeball
and on the structure of the lens and on the quality
and acuity of vision is then measured.
And to make a long story short, what these studies show is that if during development,
you or an animal exclusively looks at things
that are up close, very close to the eye
and doesn't ever get long range vision,
the eyeball lengthens.
And when that happens, the lens,
which of course is in the front of the eyeball,
which focuses the light onto the back of the eyeball,
which is where the so-called neural retina is,
where the cells that sense light are.
That visual image lands in front of,
as opposed to directly on the light sensing portion
of the eyeball, and we call the neural retina.
It lands too close or near the lens
as opposed to on the back of the eyeball.
And that's part of the reason what we call
the consequence of that near-sighted myopia.
In farsightedness, the opposite happens.
The visual image is actually focused behind the retina.
It doesn't land directly on their retina,
which is what you want.
It's focused too far behind the retina,
and that's due to a shortening of the eyeball.
So what I just described actually explains pretty well
why kids who look at computer screens or books up close
often need glasses.
You know, when I was growing up,
they called this nerd syndrome.
Raising my hand for those of you that are listening.
I read an awful lot, but I also spend time outside,
fortunately, and running around on the soccer field and looking at things in the distance raising my hand for those of you that are listening, I read an awful lot, but I also spend time outside fortunately
and running around on the soccer field
and looking at things in the distance
and playing in the neighborhood with my friends.
Kids that spend the vast amount of their time
looking at things up close,
in particular children who do that indoors
for most of their waking time,
well, those kids develop myopia.
This is part of the reason why we have such an increase
of the incidence of myopia nowadays.
What's interesting, and I think most people don't realize
is that even as a young adult and adult,
and perhaps even as an older adult, an elderly person,
looking at things up close too much
at the expense of getting some time,
viewing things at a distance, in particular outdoors,
can be very problematic
because it can exacerbate myopia.
So the short direct prescription here
is to make sure that you're getting
at least an hour or so each day,
although ideally it would be more, of long viewing.
And that could be done by walking outside
and avoiding looking at your phone while walking.
It doesn't require that you look
at a particular object in the distance.
Although if you are scanning for and looking for objects
in the distance, the way that you might on a hike
or you're looking out toward or off a vista,
you're looking for someone in the distance,
all of that sort of visual scanning behavior
is going to be very good for your eye health
and for maintaining vision at a distance.
If you're somebody who's farsighted
and you have trouble seeing things up close,
well, then you need to ask yourself
whether or not you're spending too much time
looking at things off in the distance.
Although I want to be very clear
that nearsightedness and farsightedness
aren't necessarily the consequence of this near-far viewing.
There can be independent causes
of nearsightedness and farsightedness.
But for many people out there
who are spending progressively more and more time
just looking at things up close,
you can get this lengthening of the eyeball
or challenges in the way that the elasticity of the lens
is controlled by the musculature
in ways that make it hard to maintain sharp, crisp vision
when you're looking at things at a distance or up close.
Okay, so I can't because there are simply no studies
to support the idea that you need exactly two hours per day
of outside long vision at a particular distance
and or that you want to cut off or have a threshold
of four hours per day of looking at things up close.
But we can say with a high degree of confidence
that if you want to maintain or enhance your vision
at all distances, that for every hour or so
that you spend looking at things,
say a distance of three feet away or less,
you want to get at least one hour per day total,
doesn't have to be all at once,
of looking at things out in the distance
or looking at things beyond three feet
relative to the distance from your eye.
Okay, so I think for some people who are already badly myopic,
this isn't going to remedy that myopia.
You're still going to need corrective lenses.
But if you're somebody similar to the person
who asked the question that they're, quote unquote,
noticing their vision is deteriorating,
really try and balance out the amount of viewing
that you're doing at close distance and long distance.
And again, I would not obsess about the total numbers.
You know, it doesn't have to be three hours in three hours,
but the more time that you can spend at viewing things
at variable distance throughout the day,
the better off you're going to be in maintaining
and perhaps even enhancing your vision somewhat.
Now there's an additional behavioral tool
that we can glean from the recent scientific literature,
exploring myopia, which points to the fact
that children who get two hours a day or more
of time outside in sunlight, right?
One of my favorite topics,
I know many people are probably rolling their eyes right now
when they hear me say,
you really want to view morning sunlight,
not through a window or windshield,
don't wear sunglasses for that,
try and get as much sunlight as you can in your eyes
early in the day, never stare at any light so bright
it's painful, look out, et cetera.
We've done a lot of episodes on this.
We have a light for health episode.
This is in all the sleep episodes.
It's just such a basic foundation
of circadian rhythm and health
that I just keep repeating it.
However, there are also large-scale clinical trials
involving thousands of subjects
that have shown that people, children in particular,
who get two hours or more of outside time every day
have a much lower incidence of myopia.
Now, what's really interesting about these studies
is that while some of those kids
are looking at things further off in the distance
than they would if they were indoors on their tablets
or screens or with their nose in a book.
It does not seem to be the case
that they have to be looking at things in the distance
in order to see this reduced incidence of myopia.
What's probably happening instead
is that the particular wavelengths of light
that emanate from the sun,
that photon energy in particular
is triggering the activation
of the so-called intrinsically sensitive
melanopsin retinal ganglion cells,
which we know are important for setting circadian rhythm,
for enhancing mood focus and alertness during the day
and enhancing the quality and duration of sleep at night.
But those melanopsin intrinsically photosensitive
ganglion cells are also involved in networks within the eye
that relate to blood flow,
that relate to the ciliary body,
which is a structure within the eye
that controls the aperture
and movement of some key components within the eye
that also relate to the crispness of vision,
that is the acuity of vision at both short and long range.
So there are a lot of technical details there.
In fact, I really hope to get the great Russ Van Gelder
or Dr. Russ Van Gelder, who's the chair of ophthalmology
at the University of Washington in Seattle,
who is a world expert in this and the various aspects,
both molecular and structural of the ciliary body
and the lens, and he's an expert in uveitis,
a very interesting topic in its own right,
to come onto the podcast and talk more about eye health.
And we will do that in the not too distant future.
Meanwhile, if the first behavioral protocol
for enhancing and maintaining eye health
is to make sure that you're spending at least some time
balancing out the near vision and far vision during the day,
it also stands to reason that you want to get outside
for at least two hours a day,
which I know sounds like a lot,
in order to prevent myopia.
If you're a young person and offset the progression of,
and maybe even reverse some myopia,
we don't know yet based on the data,
but there's some indication that's possible
by getting outside two hours a day.
And the cool thing is,
because many people, including myself,
have a lot of work to do,
and we need to be on our phones quite a lot do and we need to be on our phones quite a lot
or we choose to be on our phones quite a lot,
this effect of getting sunlight outdoors
during the daytime for two hours or more
does not seem to require that you stay off your phone
or tablet or that you're looking at things
far in the distance the entire time.
What this means is if you can get outside
onto a patio or a deck or an outdoor table, if you can,
if weather and conditions permit,
and do some of your phone time and computer time
and reading, et cetera, outdoors.
Now, if you're already making an effort to get outside,
hike, play sports, take walks, et cetera,
that of course counts towards this two hour threshold.
And I know this sounds like a lot, this two hours,
and yet for most people, you know,
certainly will vary depending on time of year,
but I think striving to get on average
about two hours of outdoor time as much as you can,
or opening a window,
which wouldn't be as good as getting outside,
but opening a window
and trying to get some natural light exposure to the eye
to trigger the activity of these intrinsically photosensitive
melnopsin retinal ganglion cells,
that's going to be a really good idea
in trying to offset and maybe even reverse some vision loss.
Now the other behavioral protocols,
which have shown to be useful
in terms of maintaining or improving vision,
relate to the musculature around the eye
and the control of the movement of the lens.
And actually the lens of the eye
has its own kind of flexibility.
It's a really, really interesting structure.
I'll geek out on this far too long
if I don't prevent myself from doing so,
but the lens is just incredible.
The fact that it has a specific structure of proteins
like crystallins and things of that sort
and that it can still derive nourishment from blood flow,
but does not actually have vasculature within it.
So it's not, if you notice, I mean,
the lens of your eyes and filled with blood vessels
and capillaries, because it needs light to pass through.
Super interesting structure.
I think the only violation of what I just said
is the manatee, right?
Those big sort of underwater elephant-like creatures
that I think were or are endangered down in Florida.
They were getting chopped up by speed boats,
but I think now there's some effort to preserve
those big gentle giants.
The manatee, as I recall, has a vascularized lens,
which is why their eyes look opaque.
It looks like they have cataracts.
In any case, you're not a manatee.
You have no blood vessel supply to the lens.
Keeping that lens clear is vital.
Nowadays they can do lens replacement.
There's really pretty incredible progress
in the realm of ophthalmology and surgical replacement
of the lens or the cornea, other aspects of the eye.
But if you're somebody who is interested
in maintaining your vision,
you're going to want to maintain the musculature that controls the movement and the change of shape
in that lens and the movement of the eyes,
which allows you to transition your vision
from very sharp when viewing things up close
to very sharp when viewing things at a distance.
And this is where some of the so-called near-far exercises
can be very useful.
So when we did a full-length podcast on eye health
and improving eyesight,
which I invite you to listen to if you like,
talked about two different types of vision exercises
that have been shown to be useful for improving vision
at the level of acuity that have a lot to do
with improving the musculature
and the movement of the eyes and the lens.
And that's what's called a smooth pursuit task.
So you could go onto YouTube if you like
and put smooth pursuit eye task
and do this for a few minutes each day
if you're trying to keep your vision strong.
And what that task involves is, as the name suggests,
smoothly tracking a small dot or crosshatch
or arrow on the screen,
which is very different
than the so-called saccade type eye movements
that we often make.
Saccades are when you dart your eyes
to a particular location to look at something,
then dart it to another location to look at something.
Micro saccades are little tiny versions of those
that we're doing most all of the time.
Believe it or not, when you look at a visual scene or image,
if you did not have those little micro saccades,
your brain would adapt or would attenuate
to whatever you were looking at, and the visual image would actually disappear, which really speaks to how important
it is that your perceptions change in order to maintain them. This is very similar to where if
something is placed on your hand, say a finger, you'll notice that change. But then if you leave
it there for a short while, you'll forget that it's there because the cells there have adapted
out. There's no change. So your nervous system is largely responding to change.
This is also why when you walk into a room
and you often notice a novel smell,
let's hope it's a good smell,
after a few minutes or so,
you don't notice the smell anymore
because your olfactory system adapted that away.
So a lot of that adaptation is prevented
by those little micro saccades and the macro saccades,
the bigger saccades are really for moving your eyes around
to look for things in visual space.
Smooth pursuit is a very particular kind of visual behavior
that you can do in a smooth pursuit task.
Again, zero cost, costs a little bit of time, I suppose,
to do this on YouTube.
And most any of them will do.
We can provide a link in the show note captions
and one that we like, or several that we like.
But by doing that smooth pursuit task for a bit each day,
maybe just a minute or two,
you're maintaining your ability through the musculature
of the eye to do smooth pursuit.
And of course you do smooth pursuit
when you move about your day,
but for people that are trying to offset
or reverse vision loss, doing some additional
deliberate smooth pursuit exercises can be useful.
The other visual exercise that can be very useful
is this so-called near far exercise. So this
is best accomplished, I think, by, you know, holding out a pen or pencil in front of your eyes,
in front of your head, and focusing very intensely through what's called a vergence eye movement,
where you bring both eyes to the tip of the pen, and then moving that pen closer and closer and closer to your eyes where you get close enough
that you actually have to deliberately bring your eyes.
For those of you listening,
this is what I'm doing right now.
To the point where it's blurry
and you can no longer hold it in sharp, crisp relief.
You can't see it sharply, that is.
And then you can move it out a little bit distance
and kind of play right around that threshold
where it's hard to keep it in focus.
Now, and then move it back out again, and then in.
Doing that for even a minute or two,
you'll find is a bit of a strain on your eyes,
but you can actually build up the musculature
and the neuromuscular connections
that allow you to do that more efficiently.
And that has been shown to improve certain aspects of vision
especially when people are diligent
about doing those exercises, not necessarily every day,
but let's say three days a week or so.
They can be very fast.
I actually find them kind of fun
for reasons that escape me entirely.
Now, how close you can bring that object
and still maintain it in sharp focus
will vary from person to person
based on a number of things.
First of all, how healthy
and well-performing their neural retina is,
whether or not they have myopia or hyperopia,
nearsightedness, et cetera,
whether or not, for instance, you're like me
and you have a fairly close interpupillary distance,
or whether or not you're more wall-eyed
and you have your eyes set further apart.
All those things will dictate
the exact performance of that task.
But nonetheless, it's a very useful task to do
when trying to maintain or improve vision. Now, of course, there are a lot more useful task to do when trying to maintain or improve vision.
Now, of course, there are a lot more behavioral tools
that one could use to maintain or enhance vision.
I'm really touching on the biggest
and what I consider the most important ones
that are most accessible to people
without the need for any fancy equipment at all.
And if you want to learn more about other behavioral tools
that one can use to maintain or enhance vision,
please see the episode that we did on eyesight.
You can simply go to hubermanlab.com,
put into the search function eyesight or vision,
and it'll take you right to it.
In fact, everything on that website is keyword indexed
and will take you to the various episodes and timestamps
that you're interested in according to that keyword.
Now, the person who asked this question,
who by the way is Paige Singer, thank you Paige Singer.
And the question got a lot of upvotes
because apparently there's a lot of interest in this,
understandably so, asked about nutrition and supplements
for maintaining or improving vision.
That could be a very lengthy conversation,
but let's just summarize it with a few brief points
that we know stand based on the clinical
and scientific research.
We've all heard that carrots are good for your eyes.
Well, it's not carrots per se that are good for your eyes.
It's vitamin A that's essential
for the so-called phototransduction cascade.
The phototransduction cascade is the process
by which the photoreceptors,
which are in the back of the retina,
at least if you're a human, they're in the back of the retina
take photons, light energy,
and convert it into electrical signals that's then conveyed to the're in the back of the retina, take photons, light energy, and convert it into electrical signals
that's then conveyed to the other cells
and neurons within the retina
and then passed into the brain to create visual percepts.
Most people can get enough of this fat soluble vitamin
we call vitamin A by making sure that they eat
at least some dark green leafy vegetables
and that they do that in their closest to raw form,
maybe cooked a little bit, but not overly cooked.
There are other sources of vitamin A out there.
You can look those up online
just for sources of vitamin A.
Most people will be able to get enough vitamin A
from their nutrition and won't require it from a supplement,
provided that it's not present at excessively high levels
in a foundational supplement or vitamin mineral supplement.
Getting some additional vitamin A
from a foundational supplement
or vitamin mineral supplement
is probably not going to be an issue
unless you really take in far too much of that vitamin A
and could potentially provide some insurance.
But again, I think most people can get enough vitamin A
from their diet if they're taking care
to eat the foods that contain vitamin A, green leafy vegetables being one.
The other food that's known to be highly enriched
in vitamin A is liver, one of my least favorite foods,
regardless of what animal that liver comes from.
Liver is somewhat of a popular slash controversial
organ meat in the nutrition space
for reasons that aren't interesting
for sake of this discussion anyway.
I suppose for those of you that like liver,
you could eat a little bit of liver every once in a while.
It is rich in a number of things
that are beneficial to health,
although for you vegans out there,
I'm sure you'll want to avoid liver entirely.
I avoid liver because I just simply
don't like the way it tastes.
Maybe once or twice I've tasted liver
that was appetizing to me, and it can be okay,
but it's just not, or at least by my read, it can be okay,
but it's not a food that I actively seek out,
order or prepare for myself on a regular basis.
So fortunately there are other sources of vitamin A as well.
And again, I just invite you to all put into a web search,
you know, food sources of vitamin A
and figure out how to get your daily dose of vitamin A
by taking in foods that you like for you.
And then in terms of supplementation
of things that can enhance vision,
this is a newer area.
And frankly, it's an area where most of the data point
to some supplements that can potentially be beneficial
in certain disease conditions.
So for instance, in fairly progressed
age-related macular degeneration.
Age-related macular degeneration is fairly common
or more common than we would like, we should say.
And it does appear that supplementing
with certain things like lutein,
which is present in eggs or egg yolks in particular,
especially egg yolks that aren't overly cooked
or that can be supplemented,
can potentially help with some instances
of age-related macular degeneration.
But the data on this are still emerging.
I consulted with our chair of ophthalmology at Stanford
about lutein and some of the other things
that you'll see out there,
like zeaxanthine and astaxanthines.
And these xanthines come from certain fruits
like blueberries
and they're present in supplements and things of that sort.
The consensus I got talking to him
and talking to some other ophthalmologists
are that if you're really aiming to get a healthy diet,
you're avoiding cigarette smoking.
And by healthy diet, I mean getting sufficient amounts
of vitamin A and lutein through food sources.
Again, you can look up where those food sources are,
egg yolks just being one of them.
Well, then chances are you're not going to need
to supplement with lutein or the zeaxanthines
or the astaxanthines.
However, I have heard anecdotal reports
from a number of people
that they'll start taking a supplement for eye health.
There are a number of them out there.
We are not as a podcast affiliated
with any of those eye health supplements, by the way.
And people are reporting enhanced vision.
You know, I receive emails all the time that say,
you know, I'm taking this, you know,
lutein at 20 milligrams per day.
And there I should mention that the dosage
that's been explored in a couple of studies
is 10 to 20 milligrams per day.
Again, you could get that from foods.
You could go above that if you're more cavalier,
or you could go toward the lower end of that,
10 to 20 milligrams per day,
if you are somebody who's more conservative, I should say.
Well, there are people out there who are looking at lutein,
they think it's fairly safe,
and they're taking higher dosages of lutein,
so 20, 30 milligrams per day.
They're also taking supplements that contain zeaxanthines
and astaxanthines and are reporting anecdotally
that their vision is enhanced.
I don't dispute those claims,
but as of now, there aren't many papers.
I could only find about four, three really solid ones.
And then a fourth that point to the specific disease
instances where supplementing with lutein,
zeaxanthine, or astaxanthine can be beneficial
for slowing the progression of things
like advanced onset age-related macular degeneration.
And the degree of offset for that macular degeneration
was slight, it wasn't enormous,
but it was robust enough that it warranted reporting
in the paper.
Or things like Leber's, which is a particular eye disease,
it impacts a whole different set of systems in the eye.
So basically what I'm trying to say is when it comes
to supplements to support eye health,
make sure you're getting enough vitamin A from your diet.
If you're not, consider supplementation
or consider changing your diet somewhat
to make sure you can get that lutein and vitamin A.
And if you are interested in it
and it's within your budget,
I don't know of any evidence
that supplementing with additional lutein,
zeaxanthine and astaxanthine can be dangerous at all.
So for those of you that are really interested
in maintaining or improving your vision,
that might be an area that you want to explore.
I personally am not taking lutein, zeaxanthine
or astaxanthine, at least not at this time.
I do take a foundational supplement,
which is my source of vitamin A
in addition to my food sources.
But I don't suffer from vision loss.
I do wear readers at night and I have for a long time.
I have a little bit of a muscular weakness
in one of my eyes that originated in childhood.
So occasionally if I get very fatigued,
one of my eyes will deviate a little bit,
a little bit of almost strabismus,
especially if I've been awake for very long periods of time.
It tends to recover once I get a good night's sleep.
Some of you that have experienced this,
where you have one eye that might just drift a little bit,
I could do this for the camera if you want.
Okay, this is weird.
I used to do this to my sister across the table
when we were at a friend's houses for dinner.
So I can actually move one of my eyes in like this,
which actually just reflects that there's a muscle,
extraocular muscle closer to my nose that's rather weak,
which allows me to kind of do that.
I can't do it so well with the opposite eye.
Anyway, now I need to blink to kind of clear my vision.
But the point is that if you're somebody
who has a slightly deviating eye, slightly,
often if you go to the ophthalmologist
or optometrist, they're going to give you a prism lens, which is going to redirect the image
onto that slightly deflected eyeball. One thing you'll really want to discuss with that
ophthalmologist or optometrist is whether or not there are exercises that you could do to overcome
that issue without the need for a prism. Because what I saw and what many other people see
when they put on a prism lens is that indeed it can line up
their vision or their visual perception better,
but indeed it can lead to progressive weakening
of the muscle further and further.
So then that eyeball starts to deviate further and further.
And that raises a larger question,
which is should we wear corrective lenses?
In fact, if you go online,
you'll find or hear about these examples of people that stopped wearing their corrective lenses,
their glasses or contacts in order to bring their vision back or improve their vision on their own.
Now, if your vision is quite impaired, you're going to need corrective lenses or contacts.
However, there are a number of people out there who find that if their vision is somewhat impaired,
that forcing themselves to view things at a distance,
to do smooth pursuit, to do near far,
and to make sure that they're getting adequate nutrition
and things of that sort can all sum
to help offset some of the visual impairment
that would occur if they were to just pop glasses
on their face and rely on the corrective lenses
in order to focus the light onto the correct area
within the eye onto the neural retina.
So I'm not telling people to throw off
or get rid of their corrective lenses and contacts,
but you can be overly reliant on these things like a crutch
in a way that perhaps you want to do a little bit of work
to try and overcome,
and then maybe work with a weaker prescription.
And certainly in the case of prism lenses,
what I mentioned before is a real consideration.
It's one I'm very familiar with.
So as a last, but I think very important
and exciting feature of visual improvement is red light.
I talked a little bit about this
on the episode of the Human Lab Podcast,
all about light and health.
There's some really spectacular,
I think I consider it spectacular.
Many other people consider it spectacular research
out of University College London,
and the work I'm referring to is Glenn Jeffrey's work.
I've known Glenn for a long time.
These are animal studies and now two human studies
exploring how exposure to red light early in the day
can offset some of the vision loss
related to age-related macular degeneration
or simply age-related visual decline.
And there's a whole mechanism here
that's discussed in that episode,
but it has to do with the fact that red light
and near-infrared light together,
or maybe even separately,
when viewed for even just a minute to three minutes once,
or maybe two or three times per week maximum,
can actually reduce the number
of what are called reactive oxygen species in the photoreceptors that convert
photons into electrical signals.
The rest of the visual system can understand.
So that's a mouthful.
Basically what they found was for people 40 years or older,
if they viewed this red light at a distance of about a foot
and a half, although I wouldn't get too specific with this,
for a few minutes each week total,
they were able to offset some of the vision loss
within a particular domain of vision.
And I don't have time to go into the details here,
but because I do that in the light for health episode,
but you have different types of photoreceptors,
cones and rods.
You have different types of cone photoreceptors
that respond to different wavelengths of light,
short, medium, and long wavelengths of light,
so-called blue, green, medium and long wavelengths of light,
so-called blue, green and red cones,
they're sometimes called.
When these people who are 40 years or older
viewed red light on a consistent basis early in the day,
and it did have to be early in the day,
there was a real circadian effect there,
there was a offset of some of the vision loss
that would normally occur in a particular wavelength of light range
that resulted in better visual acuity overall.
So if you're very concerned about your vision
or you're into red light therapies, et cetera,
there are a number of different red light devices out there.
At some future point, the Hubrin Lab podcast
may partner with one of these red light companies.
So right now I'm not going to mention any of them,
particularly they're prominent online.
What you're looking for is a red light unit
that provides red light and maybe far near infrared,
excuse me, light as well.
So something in the 650 to 720-ish nanometer range.
So really, it's going to look red or almost invisible to you
if it's really far into the infrared.
And you'll want to view that at a distance about a foot and a half to two feet.
And you don't want it to be so bright
that it's painful to look at, okay?
Because you don't want to damage your eyes.
But that's essentially what they used
in these studies from the Jeffrey Lab.
And they showed some pretty impressive offset
of some of the aspects of vision loss
in these people 40 and older.
So that's an area that you may want to explore as well,
especially for folks 40 and older. So that's an area that you may want to explore as well, especially for folks 40 and older.
And again, this red light exposure
had to be done early in the day.
So hopefully that collection of behavioral tools,
near, far, smooth pursuit,
some of the discussion about lutein, nutrition,
vitamin A, supplementation, zeaxanthines, astaxanthines,
getting two hours of light exposure outside,
sunlight exposure, get outside to do some of your work
and perhaps even deliberate red light exposure
for certain people can be used to offset your concerns
and your actual potential vision loss
and maybe even improve your vision
regardless of what age you are.
Everything I described is supported
from the peer review literature.
And again, if you want to get the deep dive on mechanism
and further information about dosages,
please check out the episode on eyesight
and improving your eyesight
and the light for health episode,
again, at hubermanlab.com.
Thank you for joining for the beginning
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