Huberman Lab - Timing Your Light, Food, & Exercise for Optimal Sleep, Energy & Mood | Dr. Samer Hattar
Episode Date: October 25, 2021In this episode, I host Dr. Samer Hattar, Ph.D., Chief of the Section on Light and Circadian Rhythms at the National Institute of Mental Health. Dr. Hattar is a world-renowned expert on how viewing li...ght at particular times adjusts our mood, ability to learn, stress and hormone levels, appetite, and mental health. We discuss how to determine and use your individual light sensitivity to determine the optimal sleep-wake cycle for you. We also discuss how to combine your light viewing and waking time with the timing of your food intake and exercise in order to maximize mental and physical functioning. Dr. Hattar is credited with co-discovering the neurons in the eye that set our circadian clocks and regulate mood and appetite. He explains why even a small shift in daylight savings leads to outsized effects on our biking because of the way that our cells and circadian clocks integrate across many days. And he offers precise tools to rapidly adjust to jet lag, shift work, and reset your clock after a late night of work or socializing. This episode is filled with cutting-edge data on the biological mechanisms of human physiology and practical tools for people of all ages. Read the full show notes for this episode at hubermanlab.com. Thank you to our sponsors AG1: https://athleticgreens.com/huberman LMNT: https://drinklmnt.com/hubermanlab Waking Up: https://wakingup.com/huberman Momentous: https://livemomentous.com/huberman Timestamps 00:00:00 Introducing Dr. Samer Hattar, Ph.D. 00:02:33 Sponsors: AG1, LMNT & Waking Up 00:06:15 Light, Circadian (24-hour) & Circannual (365-day) “Photoentrainment” 00:14:30 Neurons in Our Eyes That Set Our Body Clocks: Similar to Frog Skin 00:18:55 What Blind People See 00:20:15 When, How & How Long to View Light for Optimal Sleep & Wakefulness 00:30:20 Sunlight Simulators, Afternoon Light Viewing, Naps 00:33:48 Are You Jet Lagged at Home? Chronotypes & Why Early Risers Succeed 00:38:33 How to Decide Your Best Sleep-Wake Schedule; Minimal Light Test 00:42:16 Viewing Light in Middle of Day: Mood & “Light Hunger” 00:44:55 Evening Sunlight; Blueblocker Warning 00:48:57 Blue Light Is Not the Issue; Samer’s Cave; Complete Darkness 00:53:58 Screens at Night 00:56:03 Dangers of Bright Light Between 10 pm and 4 am: Mood & Learning 01:01:05 The Tripartite Model: Circadian, Sleep Drive, Feeding Schedules 01:05:05 Using Light to Enhance Your Mood; & The Hattar-Hernandez Nucleus 01:07:19 Why Do We Sleep? 01:08:17 Effects of Light on Appetite; Regular Light & Meal Times 01:18:08 Samer’s Experience with Adjusting Meal Timing 01:22:51 Using Light to Align Sleep, Mood, Feeding, Exercise & Cognition 01:30:15 Age-Related Changes in Timing of Mental & Physical Vigor 01:31:44 “Chrono-Attraction” in Relationships; Social-Rhythms 01:33:40 Re-setting Our Clock Schedule; Screen Devices Revisited 01:37:50 How Samer Got into the Study of Light 01:39:33 Clock Gene mRNAs & More Accurate Biomarkers 01:41:08 Light as Medicine 01:42:48 ADHD (Attention-Deficit Hyperactivity Disorder) 01:43:35 How to Beat Jet Lag: Light, Temperature, Eating 01:50:44 Vigor: The Consequence of Proper Timing 01:52:15 Waking in the Middle of the Night: When Your Nightly Sleep Becomes a Nap 01:54:10 Melatonin, Pineal Calcification 01:55:25 Our Seasonal Rhythms: Mood, Depression, Lethargy & Reproduction 01:59:08 Daylight Savings: Much Worse Than It Might Seem 02:05:27 Eye Color & Sensitivity to Light, Bipolar Disorder 02:09:28 Spicy Food, Genetic Variations in Sensory Sensitivity 02:10:52 Synthesizing This Information, Samer on Twitter, Instagram 02:13:00 Conclusions, Ways To Support the Huberman Lab Podcast & Research Disclaimer & Disclosures Learn more about your ad choices. Visit megaphone.fm/adchoices
Transcript
Discussion (0)
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, I have the pleasure of introducing Dr. Samar Hattar
as my guest on the Huberman Lab podcast.
Dr. Hattar is the chief of the section
on light and circadian rhythms
at the National Institute of Mental Health
in Bethesda, Maryland.
Dr. Hattar has many important discoveries to his name,
He was one of a handful of groups
that discovered the light sensing neurons in the eye
that set the circadian clock.
This is a fundamental discovery made in the early 2000s
that has led to an enormous number
of additional discoveries on how light regulates
our sleep, our immune system, our mood,
mental health, metabolism, feeding,
and many other important processes.
If ever there was somebody who understands
how all of these processes,
interact and can inform best practices
for our daily behaviors, it's Dr. Hattar.
During our discussion today, Dr. Hattar answers questions
that are absolutely essential for us to know
about our health and well-being.
For instance, how to align our sleep schedule
with our activity schedule, such as exercise,
and how to align light activity and exercise
with our feeding rhythms.
He presents a new model of how light
activity and feeding rhythms converge
to support optimal health and when those are not aligned correctly,
how our mental and physical health can suffer.
It's a discussion that is rich with scientific mechanism,
made clearly of course, so everybody can understand,
as well as specific protocols to deal with shifts in day length,
shifts in activity, and in order to optimize sleep,
metabolism, and well-being of various kinds.
I learned so much from Sammer as I always do.
He is an absolute wealth of knowledge
on all things related to light and circadian rhythms,
physiology and neuroscience.
I don't think you'll find anyone else
as knowledgeable about these topics as Sammer,
and so I'm delighted that he joined us here on the podcast
to share this information.
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,
I'd like to thank the sponsors,
of today's podcast.
Our first sponsor is Athletic Greens.
Athletic Greens is an all in one vitamin mineral probiotic drink.
I've been taking Athletic Greens since 2012,
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In addition, it has probiotics,
which are vital for microbiome health.
I've done a couple of episodes now on the so-called
gut microbiome and the ways in which the microbiome interacts with your immune system,
with your brain to regulate mood, and essentially with every biological system relevant to health
throughout your brain and body. With Athletic Greens, I get the vitamins I need, the minerals I
need, and the probiotics to support my microbiome. If you'd like to try Athletic Greens, you can go
to athletic greens.com slash Huberman and claim a special offer. They'll give you five free travel
packs, plus a year's supply of vitamin D3K2. There are a ton of data now showing that vitamin
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even if we're getting a lot of sunshine,
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Again, go to athletic greens.com slash Huberman
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and the year supply of vitamin D3 K2.
And now my conversation with Dr. Sammer Hattar.
Sammer, thanks for sitting down with me.
My pleasure.
Yeah, we go way back.
So you are best known in scientific circles for your work on how light impacts mood, learning, feeding, hunger, sleep, and these sorts of topics.
So just to kick the ball out onto the field, so to speak, how does light impact the way we feel?
So when I get up in the morning, I have the opportunity to interact with light in certain ways or to avoid light in certain ways.
I have the opportunity to interact with sunlight or with artificial light.
Maybe you could just wade us into what the relationship is between light and these things like mood and hunger, et cetera.
Sure.
So, I mean, you do appreciate the effect of light for vision.
So when you wake up in a beautiful area, beautiful ocean, light is essential.
The sunrise, the sunset, blue sky, beautiful mountains.
So that's your conscious perception of light.
But light has a completely different aspect
that is independent of conscious vision or image-forming functions.
And that's how it regulates many important functions in your body.
I think the best that is well-studied and well-known is your circadian clock.
And the word circadian comes from the word circa,
which is approximate and DNA is day.
So it's an approximate day.
Why is it an approximate day?
because if I put you or any other human being who have a normal circadian clock in a constant conditions
with no information about feeding time, about sleep time, about what time it is outside,
you still have a daily rhythm, but it's not exactly 24 hours.
So it will shift out of the solar day because it's not exactly 24 hours and hence the name circadian.
So just to ask a quick question about that, when you say you have this about 24-hour rhythm,
how does that rhythm show up in the tissues of our body?
Great.
So, great question.
So it shows up at every level that we know we studied.
It shows up at the level of the cell.
It shows up at the level of the tissue and it shows up at your behavior.
The most obvious for you is your sleep-wake cycle.
You sleep and you're awake and sleep at the 24-hour rhythms.
And if you measure the sleep-wake cycle of humans who are maintained in constant conditions,
you will see that the period length of the sleep rhythm
on average is more than 24 hours.
And humans is 24.2 hours.
So you'll be drifting 0.2 hours every day out of the solar day if you don't get the sunlight.
So the sunlight adjust that approximate day to an exact day.
So now your behavior is adjusted to the light, dark environment or the solar day.
Okay.
So if I understand correctly, if I were to go into a cave or I were to be in constant light
and I didn't close my eyes in constant light,
that I would still sleep in one coherent bout.
And I would still be awake for more or less one coherent bout, maybe a nap.
But the total duration of my day, so to speak, would be a little bit longer than 24 hours.
Perfect.
But if I'm in a condition like most people are where the sun goes up and the sun goes down
and I have some understanding of that sunrise and sunset.
You don't have to have the understanding.
You don't have to have conscious understanding.
you have the detection.
So circadian photo entrainment is the word we use in training the circadian clock
to the photic environment is completely subconscious.
You're not aware of it.
It's not like vision or image forming where you actually know what you're looking at.
So it's all hypothalamic.
It's part of the brain that is not consciously driven.
So you actually do not know when it happens or when it doesn't happen.
And that's what we'll get into when I tell you why light affects your mood and why sometimes
people don't know how to deal with light to improve their mood, for example.
Okay, so this is a subconscious vision.
Yes.
Okay.
Before you tell us about how light impacts mood, I'm curious, what is the relevance of adjusting
this clock from a little bit longer than 24 hours to 24 hours?
I mean, it seems like a small difference, 24 hours and 40 minutes or 24 hours.
Like, what's the relevance?
I mean, why should we care about that short difference?
So let's do the math.
If you shift out 0.2 hours a day, in five days, you're shifting out one hour.
So you're literally one hour off in your social behavior in five days.
In 10 days, you're two hours off.
And if you're an organism that is living in the wild, shifting out of the right phase of the cycle,
you could either miss food or you could become food.
So it's really essential for survival.
I think it's one of the strongest aspect of survival for animals to have the anticipation
and the adjustment to the solar cycle.
And for humans as well, when you say animals,
I'm assuming that applies to us.
Absolutely, yeah.
I see.
So even though it's just a short bit longer than 24,
if that accumulates over days,
then you could find yourself very much out of phase
with the rest of your species, essentially.
So let's say it's 0.2 hours.
So in five days, it's one hour.
In 25 days, it could be five or six hours.
You could be in New York,
and you're feeling as if you traveled from New York to London.
So you will be having jet lag in New York,
even though you didn't do a jet lag travel.
So it's very important for the adjustment.
And if we have time, maybe we could talk about why this is important for seasonality,
because also it allows animals to anticipate the change in season.
And the more you're high in the north or the south,
the more that these weather changes occur very harshly,
and you have to be ready for them.
and that happens in us as well.
We will definitely get into seasonality.
Okay, so we've got this subconscious vision that aligns us with the turn of the earth.
How does that work?
What is the machinery that allows that to happen?
And how does that machinery work?
Yeah, so we knew that in mammals, including us, we are mammals, humans,
that the eyes are required for this function.
So if humans are born without eyes or the optic nerves are damaged,
humans are not able to adjust to the solar cycle.
So we know that the eyes are required.
And since we thought we knew about the eyes a lot before 2000,
we thought that before the year 2000.
Before the years 2000, yes.
We thought it's these photoreceptors in your retina that allow you to see.
So in the human retinas, there are two types of photoreceptors.
they are called rods and cones because of their shapes.
And these rods and cones simply take the photon energy, which light is made off,
and they change it in a way to an electrical signal that allow us to build the image of the environment in our cortices.
Subconsciously.
Consciously in this situation because it's vision, right?
It's image-forming vision.
It's a visual cortex and associative cortices which allow you to build conscious perception of the environment.
However, people have found, including me with the work of David Berson and Ignatio Provencio,
that there is a subset of ganglion cells.
The ganglion cells are the cells that leave the retina, their axon, leave the retina, and project to the brain.
So these were thought to only relay Rod and Cone information from the light environment to the brain.
We found that a small subset of these ganglion cells are themselves photoreceptors that were completely missed in the retina.
And these are the photoreceptors that relay light environment subconsciously to the areas in the brain that have unhoused the circadian clock or the circadian pacemaker, which adjust all the clocks in our bodies to the central brain clock, that allows them to entrain to the 24-hour light dark cycle.
Incredible.
So as I recall, because I was a graduate student at the time, in the year 2000, there was this landmark discovery made by you.
Provencio, David Burson, and others, that these cells exist that can communicate day and night
information to the brain in this very small subset of cells. Since then, I've heard, but maybe you can
confirm a refute, that this system that connects the eyes to the rest of the brain is actually
the most ancient form of vision, that this is probably the form of vision that some early version
of human beings had before they had pattern vision, before they could see colors and shapes and motion
and all that, and that the same cells that perform this role are actually similar to insect eyes.
I think I heard David Berson say once that we actually have a little bit of the fly eye in our eye.
What's he talking about?
Yeah.
So it's really interesting, actually, because these same IPRGCs, we discovered, they contribute a little bit to image formation
and now work from Tiffany Schmidt specifically have proven that they do contribute to image-forming
functions, but they contribute to very limited aspect of image formation.
So it fits your hypothesis that these are an ancient photoreceptors.
The other thing that adds to that hypothesis is that they are expressed in cells that
don't have any modification that make them look like photoreceptors.
So the photoreceptors that I told you about that are important for vision, image formation,
they have very specialized structures that allow them to pack these structures with
photopigments, these are the photo detecting proteins, so they could detect a high sensitivity
of photons that pass through them.
These IPRGCs don't have, these new photoreceptors don't have these specialized structures.
So they just really need a lot of light at the time.
We thought they need a lot of light to be activated.
So that's why we think they are ancient, and that's why I think they adjust to ancient functions
that are as important as regulating your body circadian clock to the solar environment,
to solar day or to the light dark cycle.
So you mentioned IPRGCs, intrinsically photosensitive.
So these are cells that connect the eye of the brain that behave like photoreceptors, essentially.
And then you mention melanopsin, which is the actual pigment that converts the light into the electrical signal, more or less.
And my understanding is that melanopsin was identified first in frog melanopsyllular,
force. Yes. So does that mean that we have like little pieces of frog skin in our eyes?
So honestly, David Burson say you have a fly in your eye because it sounds better. The more accurate,
I think, is that you have a frog skin in your eye. It's not as catchy, but really melanopsin,
really the name melanopsin is from milanocytes. So it's melanopsin because it was found in the frog
milanosites. You know the frogs can change their color depending on light and melanopsin drives this
response. So when Ignacio Provencio first discovered these absence in frogs, luckily he was
smart enough to see if they are expressed in the frog eye. They were expressed in the frog eye,
and it's what appears to be retinal gangling cells, which I told you the one that connect the eye
to the brain. He had the insight to go and see if they are expressed in the monkey eye,
and he found that they are also expressed in what appears to be retinal gangal cells.
And really that what opened the field wide open. Then David Berson did the seminary
experiment where he went to the brain where the central oscillator, the oscillator that drives
circadian rhythm in the brain called the suprachaismatic nucleus that has been known for many
years to receive retinal input.
And he labeled the cells that project there.
And then he found that even if you destroy roads and cones, you could get light responses
from these cells.
So you could imagine he nearly fainted when he saw that these cells can respond independent,
completely in the absence of Rod-Anconi input.
Yeah, I'll never forget reading those papers in 2000, 2001.
I was at the meeting in D.C. when Iggy, we call him Iggy,
showed this image of this, basically what is frog melanophores in the human eye.
And everyone was like, oh, my goodness, this is the thing.
And I want to get into how light actually can control circadian rhythms in a moment.
But I think it's worth mentioning now that people who are patterned,
vision blind. So people who cannot see, and no conscious vision, but have eyes, many of them
still have these cells, these melanopsin intrinsically photosensitive cells, and can essentially
match or entrain, as we say, onto the light-dark cycle.
In fact, they possibly have no problems in circadian photo entrainment. They'll have enormous
sleep-wake cycle. But they're totally blind.
But they are totally image-blind. And what's really interesting is that, and this story I
heard from Chuck Seisler, so I'll give him credit, that some of these people who are image blind,
usually they get dry eyes and they give them a lot of pain. And doctors used to think, oh,
since they are image blind and they're getting dry eye, why don't you just remove their eyes?
They're not using them anymore. And the minute they would remove their eyes, they start having
cyclical sleep problems indicating that now they are not in training to the light dark cycle
and are having cyclical jet lags when their clock shifts through the light dark cycle.
That's really interesting.
And I hear from a number of blind people, you know, in my various aspects of my job.
And a lot of them have issues with sleep, I think, in part because they don't realize that
they too need to see light at particular times of day or night in order to match their schedule.
Absolutely.
Well, I think that's a perfect segue for us to talk about how light and viewing light can impact
our sleep wake rhythms.
And then we will move into some of the other ways in which.
light can impact other forms of bodily function.
Yeah.
So I love the way you set it up because one of the most interesting and difficult aspect
of trying to educate people about light effect on subconscious vision is that it's subconscious.
So we're all aware of what we think is intensity because we see the room.
But, you know, if you talk to people who know how to take photographs and stuff like that,
they know that the intensities varies greatly.
But our system, because we have to see the same way in very bright conditions and very dim conditions,
we're not very good at estimating intensity consciously.
So when you try to tell people about intensity, you really struggle because they think they know intensities,
but they really don't.
You mean light intensity.
Light intensity.
So that the cones themselves have an incredible ability to adapt to different light conditions.
So you can see at all different conditions.
Otherwise, it'll be a disaster.
You know, if you don't change the setting on your camera and you go from inside the room to the outside, it becomes completely white.
You don't see anything.
So if your cones don't adapt to the environment, then you're not going to be able to see in this room and on the beach, right?
But the problem is your IPRGC is the cells that we talked about.
They measure intensity pretty well.
They really know what intensity is.
They have a very good linear measurement of intensity.
They don't adapt as well.
They don't adapt actually that much, to be honest.
So that tells you that subconsciously the system is used to measuring light intensity in a natural environment.
Because when you're now in a natural environment, you don't have industrialized lighting,
then your system is functioning very well.
But now when we change these environments, we could really mess up ourselves.
So you have to teach people how to understand intensity.
And that's something that you have to explain to people.
And I think I love to do it myself.
I do it in what is called the lowest amount of light required to allow you to see comfortably.
So you have to do this as a fun experiment.
Okay, so explain to me how this goes.
And maybe we could break it up in the day into three or four parts.
So let's say, assuming that most people wake up in the morning,
as opposed to night shift workers, et cetera, we could talk about later.
But they wake up in the morning.
So let's divide the day into quarters.
What is the proper way to interact with light in the first part of the day?
So I honestly think the easiest thing is waking up.
Get as much light as you can.
Into your eyes.
Yeah, it's really nice.
Your system is primed.
If you're entrained, it's primed to get light.
The sun should be out.
Most animals in the wild, they actually seem to track the sun.
The sun has a huge influence on life on Earth.
It's actually life on Earth is because of sun.
So that's easy.
In the morning, when you wake up, you need light.
Okay, so what is the behavioral practice that you recommend?
Let's say somebody is in a condition where there's a lot of cloud cover.
Is it important to get outside?
So I have to tell you, the cloudiest day is going to be much more brighter than your room.
You could ask any photographer, a cloudy day unless it's really dark, dark clouds.
Usually cloudy days have much more bright outside than inside the room.
even when you have good lighting inside the room.
So I think in the outside is usually,
even when it's cloudy,
you're going to get enough intensity
to help you adjust your cycle
to the day-night cycle.
So how long do you...
These are general rules of thumb,
but how long do you recommend people go outside?
If you do it daily,
you possibly need very...
If you do it daily,
because remember, this thing is going to happen
on a daily matter.
So the clock is tracking it on a regular rate.
Absolutely.
It's photon counting.
It's tracking.
I would say 15 minutes.
If you don't do it daily, you may want to increase it.
And we'll talk about when you travel what you could do.
But yeah, 15 minutes should be fun.
You do it more.
It doesn't hurt.
And through a window, my understanding is that through a window,
it dramatically decreases the amount of light energy coming here.
It depends of how, you know, how thick the windows are and how dark they are.
But it's also nice to go outside and to feel the season.
Sunglasses off.
I don't use sunglasses.
Yeah, but you have the, you're,
Jordanian for pigment, you know, so yeah, whereas my eyes are very sensitive, right?
No, so I, but I personally, you know, if I'm in the shade or if it's not incredibly bright,
I try to, especially in the morning, but I'm also an early person. So we have to differentiate
between early. What time do you wake up? I wake up at 4.30 in the morning. But the sun isn't,
it's not out yet. So what do you do? You turn on artificial lights? I usually don't turn on artificial
light because I know the sun is going to come up eventually, but that's why I don't like the change.
in the timing that they do.
Wait, but what do you do between 4.30 a.m. and 7 a.m.
I mean, I just look at my computer and my phone.
So possibly I get enough light.
But in reality, I mean,
as long as you let your body get the morning sunlight,
which I think is really, to me,
and there is no evidence, but to me, this is,
if you look at all animals, plants,
this morning sunlight seems to be very important.
And I, you know, we don't have experiments to show it,
but I have a gut feeling that,
it has a huge impact on humans.
Well, Jamie Zitzer's lab at the Stanford Sleep Lab,
has shown that these early morning light flashes
can adjust the total amount of sleep that one will get,
makes it easier to get into sleep.
Absolutely.
Okay.
And Ken Wright also did this beautiful camping experiments that showed...
Maybe you should describe those because those are beautiful experiments.
They are beautiful experiment.
He took these, you know, college students that had a late onset of sleep
and late waking time.
And then he said, let's go camping
and just don't use any artificial light
and you could go to sleep as late
or as early as you want
and wake up as late as early.
And he found a huge shift in their sleep pattern
just by exposing them to the light, dark cycle.
I mean, so...
And it lasted.
And it lasted.
Even after they came back.
Exactly.
Two days of camping, reset the circadian clock.
Seven days, but it lasted.
Yeah, it's pretty amazing.
Yeah, it's really incredible.
Okay.
So get bright light of some sort early in the day, ideally sunlight.
Even on a cloudy day, it's going to be brighter than indoor light.
So that's easy.
Okay.
And the other thing that I would like to mention to people, if you think it's very dim outside, let's say it's very cloudy, stay longer.
So remember, intensity is only one component.
Duration is also important because remember that the circadian system is not like the image system.
In the image system, you have to change every second because you're looking at different objects.
You have to change your perception.
But for the circadian system, it's trying to figure out where am I in the day-night cycle.
So the more you give them the information, the better you are.
So if it's very bright, you don't need a lot because it's clearly going to make you fire like crazy.
But if it's not bright, stay longer.
Stay for one hour.
You know, have your coffee outside or something like that.
It's just going to help.
I think you said something extremely important, which is that this circadian system is trying to figure out when you,
you are in time, not where you are in space.
I said where you are in time, but I meant when you are.
Oh, no, no, I wasn't correcting you.
I just meant that I think fundamentally that's the incredible thing about this system.
That you have this clock, this 24 hour clock in your brain, but it needs to be synchronized
to the outside.
So could we go a little deeper into this circadian setting behavior and come up with some general
rules of thumb?
So let's say it's a very bright day, extremely bright.
No clouds, sun's out.
You said 10 minutes, 15 minutes.
And I'll tell you, if you're sensitive, don't,
you don't even have to go in the sun.
You could be in the shade.
There's going to be so many photons out there in the shade.
It's going to be perfect.
You don't even have to see the sun.
You don't have to have the sun.
You know, it's great for vitamin D.
That's a different story.
You could do this for your skin and, you know, protect your skin.
That's not my area of expertise.
But for that effect on the sun, you know,
circadian system. As long as you're outside in the shade and a sunny day, 10 to 15 minutes should
be ample amount. Okay. And then let's let's say it's kind of overcast. You know, it's not
particularly brighter. There's, you know, solid cloud cover, but, you know, obviously the sun is out,
but it's not as bright. How long do you think it would take to set the clock?
10 to 15 should be sufficient. Stay for half an hour. Stay for 45 minutes. If it's very dark cloud,
Yeah, stay for longer.
Okay. And if for some reason one finds themselves very far north and it's very, very dense cloud cover, how long and at what point should somebody consider using an artificial light source to mimic the sunlight?
Yeah. Honestly, this is where we don't have a lot of information still, because this is where we're going to discuss this maybe in more detail, that if you put humans in artificial conditions, the circadian system,
is very sensitive to light.
But in reality, in the real environment,
light also is affecting other aspects
that are independent of the setting of the circadian basemaker.
And these which we call the direct effect of light on mood, for example.
So that is very hard to figure out what intensity you need to use.
And we haven't done enough experience because the system has been discovered just recently.
But I would say if you use bright light in the morning,
And I mean, it's hard for me to give numbers.
It can get complicated.
But yeah, I mean, if you're, honestly, if you're that far north and you're in the winter
and you want to get, make sure you don't use these light boxes.
I would suggest that personally, but that's this.
I use, it's actually not designed for circadian setting, but I have a 930 lux light pad that I bought
and I bought it.
They're very affordable compared to the dawn simulating lights, which are, which are, which are,
quite expensive, frankly. And I put it there. And so I just basically, when I wake up in the morning,
I use that until the sun comes out. And then I make sure once the sun is out, I go outside. But I keep
that thing on all day. And I don't know if that's good or bad. Is it good or bad?
I honestly, I don't think being exposed to bright light in the day is going to ever be bad.
Because really, if you're outside in the day, unless, you know, the worst is going to happen,
if the temperature is very high, your body's going to say, don't dehydrate and go to sleep. So you could tell,
actually sometimes when it's very hot, the more you get exposed to bright light, the sleepier
you feel in the afternoon, which is counterintuitive.
And that's to protect us, you think, against dehydration?
I think if you think about the human evolution from near the equator between noon
and a certain time in the afternoon, it would have been very hard for you to maintain
physiological homestatic function being active at this very high temperature time.
So I think napping was away.
That's why I think it has a major function,
which is still,
napping was a way to somehow take you away from that dangerous zone.
And maybe that's why people in the north,
they say in the winter we can't wake up in the morning
because they don't have this long light,
so they sleep it more at night.
But in the summer, they say we feel like we can't go to sleep.
We have to put all these dark curtains.
So I think, you know, venturing that much up north has been,
came up with problem because evolution was used to a certain light environment that was completely
changed with a human with other animals, I think that lived there longer.
They have come up with very interesting adaptation of actually measuring even very small
changes in the light intensities that still occur.
So even if you're near the poles, even though it's always light, but there is a change
in the light intensity across the day and night cycle.
So your system, if it's linear, and remember, I told you that IPRGCs are incredibly linear, can still measure, oh, this is lower light than higher light, if the organism has the ability to do that.
I see.
Yeah, it's interesting.
I've spent so much time learning from you, fortunately, about these cells.
And yet I never really appreciated until now how, on the one hand, they are tracking the amount of light to understand when we are in time relative to the 24-hour cycle.
but also that you keep mentioning this linear measurement of intensity,
that they really are trying to figure out when we are in time
by measuring the intensity of light.
And of course, the sun is the most intense source of light available to us.
So, okay, so I think we've nailed down that first part of the day.
Basically, it's get 10 to 30 minutes, depending on how bright it is,
and try and do that as often as possible to give the system a regulation.
Daily is the best.
This system is really about, and you'll see that, even.
for the effect on depression. It's about multiple days. So you don't have to worry if you missed it one day,
you know, stay longer if you want. But if you're in a hurry and you want to do other stuff,
that's a great recommendation. So you might want to compensate with some extra time if you missed a day or two.
And this is why I've heard you say before, it's entirely possible to get severely jet lagged
without traveling. Absolutely. Simply by staying in, being on your phone too much, not getting the sunlight.
And you saw this during the pandemic. A lot of people mentioned.
that their sleep wake cycles suffered a lot.
Because if you're not going out and if you're staying at home
and you don't have big windows and you're waking late,
waking up late and then you're using very bright light till late at night,
your body's going to shift.
And now your day is going to start instead of like really when the sun comes up,
let's say at 6 o'clock in the morning,
your day is going to start at 11 o'clock in the morning.
That's what your body's going to think is the beginning of the day.
So then you're not.
going to be able to sleep at 10 o'clock at night because now that's really for your body
is completely different timing. And you could see this happen during the pandemic at a very high
scale. People get delayed in their sleep wake cycle a lot. And there is this idea of chronotypes that
we all each intrinsically have a best rhythm of either being a morning person. You call yourself an early
person or a night owl or more of a kind of standard, you know, to bed around 1030 up or
round seven type thing.
And I think there are now good data, correct me if I'm wrong,
from the National Institutes of Mental Health and elsewhere,
showing that the more we deviate from that intrinsic rhythm,
the more mental health issues and physical health issues start to crop up.
So there is great data on this,
and there is a couple of things that complicate this.
The first is the people who usually are late,
they tell you that the society doesn't accommodate.
By late, what do you mean?
People that wake up late and go to sleep late?
go to sleep late and wake up late.
They have an overwhelmingly higher level of depression and failures.
I mean, clearly, I mean, the reason the people say sleep early, wake up early, you're better,
because human notice that people who wake up, go to sleep early and wake up early, they do better in life.
They notice that.
They just perform better.
They perform.
But the question is, is that intrinsic to the system or is that society?
Because society starts things usually early or late, that's a hard question.
discriminate against late risers.
In a way we discriminate, right?
But the other explanation is Ken Wright's experiment,
these late riser, if they were truly chronotypically late,
why would they shift so easily when you put them in the...
If you were really chronotypically late,
and there is a phase relation between the light, dark environment
and your circadian clock,
then doing this camping experiment should not have caused much changes
because it's not that, you know,
light is going to affect you in a certain way, is that this is the relationship that your
body decided that I'm a late sleeper, late waking.
So I'm honestly, I'm still unable to figure out how much of this late waking up is controlled
by the light environment and how much is intrinsic.
I'm sure there are differences.
But are they as big as we see in the environment?
Because you have people that go up to sleep at 7 p.m. and wake up at 1 a.m.
These are clearly advanced phase.
So people that go to sleep at 7 p.m. and wake up at 1 a.m.
And feel good doing that.
I'm not so sure they feel good, but a lot of the time you talk to people, they say they are high achievers.
But they suffer because, you know, they wake up, they go to 7 p.m., wake up advanced face sleep syndrome, they call it.
They call it a syndrome.
But, you know, but then you have people who would not be able to sleep until 5 a.m.
and not be able to wake up till 3 p.m., right?
And I'm not so sure that the circadian system is that variable in the human population.
I mean, clearly there are maybe some genetic factors that make a small percentage of like everything with a bell shape.
But I think most of the time, the light environment may play a role.
And once, as we've talked about, this is a long-term effect of light.
Once you get into a rhythm, and I don't mean it as a pun.
In reality, once you get into a rhythm, it's hard to break out of that rhythm.
Because if you start sleeping late and waking up late, you're not getting the morning sunlight.
Right.
And so you're just going to be late.
And if you're like me waking up early, you're getting the morning sunlight.
You're getting what Seisler said.
I said his last name wrong.
The one in Stanford who did the...
Oh, Jamie Zitzer.
Zaisler.
Yeah.
He actually worked for...
Seizler.
So Zaitzer and Seizzer and Seisler.
Yeah, there are a lot of Zeezes and I's in their names.
Yeah.
Both phenomenal scientists.
Yeah.
What it seems to me is the case is that the only way to really know if you're meant to be an early bird, as they call it, an early person or a late person or somewhere in between, is to get morning sunlight and figure out whether or not that makes you feel better.
And to understand, to be educated about how to measure intensity, how to measure, I put it, between quotation.
Because you either get a measuring device, but you cannot depend on eye, on your,
for I to measure intensity.
Okay, so how do we do that?
Because you keep coming back to this.
So that tells me that's important.
It's very helpful.
So there are apps, like free apps, like a light meter,
where you can walk around and hold the button down
and see how many locks, you know, are in their environment.
These are complicated because you have to point them to specific region.
So how do people start to develop an intuitive sense of the measurement of intensity?
Yeah, I think at one point I posted on Instagram how I keep.
my nighttime at home and I found out that my night vision is very strong so I
found out that I especially in the winter I only need candlelight so I literally
use these tea lights and I put like 15 or 20 of them how romantic and it's so nice
I could see it clearly doesn't affect my circadian system you and your cats and my
wife and it's just great it's just great right but I don't expect people to have the
same night vision as me so the simple I mean I tell people do
the experiment. So if you put three or four lights in your room, switch two, sit for 15 minutes.
Switch two off. Switch two off. Let's say you're using five. And see, after 15 minutes, you will not
recognize you switch these two off. My gut feeling is that most people would need at least 10 times
less light than they use at night to see. The problem people use it because most of the time
they didn't see the morning sunlight. They are actually hungry for light without their knowledge. So they
They come switch all these lights on, but at the wrong time, because they walk up late.
Okay, now, now I understand.
So, so this morning light viewing goes way beyond setting your clock.
It's also a way to determine how little light you need later in the day.
Exactly.
And we're going to talk about this in a moment, but how little light you get later in the day
is a very strong determinant of things like when you will wake up, whether or not you wake up feeling refreshed, et cetera.
Let's let's know.
And that's why.
Yeah.
I'm going to break it on your show, Andrew, that I'm going to tell you, I think there is something
else that people need to think about, which is the tripartate model, that this model incorporate
three components, which we should talk about in details, that allows us humans and all animals
to incorporate the circadian clock and its relation to light, the homeostatic drive,
and the direct effect of the environment, which includes stress, light, all kinds of stuff.
they have to be incorporated together.
If you think, that's what I think right now.
If you think of one alone, you will always miss something.
When you think of them as a whole, things really become clear.
It's actually quite amazing.
Okay, well, we will definitely want to hear about your tripartite theory
and go into detail about this homeostatic mechanisms.
I want to make sure that for people who are thinking now, I'm sure, about light and how it impacts them.
So the morning light viewing behavior, I like to think we've tacked down clearly.
And thank you for that because there's so much information out there.
And I've tried to relay that information.
Of course, you're my primary source for all things circadian as well as Jamie and others, of course, Matt Walker.
But I think you've made that very, very clear.
Now, let's say I've gotten my morning sunlight, okay, right, made my bright artificial light.
And throughout the day, you said to get a lot of light.
So I'm working at my desk.
Maybe I'll go out during the day a few times,
but I'm working at my computer, I'm doing things.
Is there anything about light viewing in the middle of the day
that people should keep in mind?
Or can they just sort of freestyle it,
depending on what they're doing?
Most people are not in a dark room throughout the day.
My good feeling, if you got your morning sunlight,
you walk from your car slowly, or you walk to work,
you didn't wear sunglasses when the lights were still dim in the morning,
that you could pre-style it.
that even if you don't get a lot of light, there is a way to just, you know, in the day,
you don't have to just worry about getting a lot of bright light.
But personally, I like to do that.
So I go out at lunch and have my lunch outside as well.
This reminds the body that here it is even brighter now.
But the evidence is that you could literally help your circadian clock by giving lights at dawn and dusk.
But again, if you think of the tripartate model, this may be important about circadian clock,
but is it important for your mood?
So that's where I think you need,
or the homostatic drive.
So that's where you need to think about it.
So for the clock, for entraining your clock,
you literally can entrain it only by the dawn sunlight.
You actually don't need dawn on dusk.
Okay, but forget that.
Yeah, and I appreciate that you're distinguishing
between circadian effects and other effects of life.
You're being very precise, which is appreciated.
Until we hear about this tripartite model,
which we will cover,
for the sake of the discussion, let's treat the light viewing behavior as what are the benefits or drawbacks of viewing light for all biological purposes, not just circadian setting.
So in the morning, it's clearly going to set the clock.
And then during the day, if I understand correctly, the idea is to get as much bright light as you can because you're feeding it sounds like a sort of light hunger.
Exactly.
I love this way to put it.
I think there is a weird light hunger, considering that we're not photosynthetic organisms,
there is a weird light hungers in animals that they need to measure.
They need, they need measure.
And I think that relates to the season because the whole reproduction cycle of animals
is going to depend on the availability of food in the environment.
And if you don't know when the season is going to happen, they don't have calendars.
It's going to be very hard to survive.
So I think that's why we have this light hunger.
That's a major hypothesis. It's not being tested.
Interesting. So then afternoon and evening start to approach.
So I've had this weird experience. Maybe you can psychologically or biologically diagnose me now, Samir.
So where if I go into a movie in the afternoon like a matinee and I come out and it's dark,
I notice a significant drop in my mood and my ability to go to sleep.
Whereas if I get some view of the light in the evening,
Evening. Doesn't have to be the sunset, although sunsets are nice, but I get some light pulse in the afternoon that I have no trouble whatsoever.
And it happens in a daily, on a single time to watch.
Yeah, more or less.
That's interesting.
Then you mentioned the camping experiment where when they went camping, they're seeing the sunrise and the sunset.
So what should people do in the afternoon slash evening time in terms of their light viewing behavior?
I mean, the best thing to do is to let the natural light creep into darkness, right?
That would be the best.
But clearly, that would be inefficient.
You want to go home, you want to read, you want to talk to your kids, you want to talk to your family.
So I think, you know, it's nice to extend the day.
I don't think that's wrong if you somehow can block that light from affecting your circadian clock.
So should people use blue blockers in the evening?
I personally do not like any blockers that take a single wavelength of light.
Because again, if you think of a holistic approach, yes, the blue blocker is going to prevent
you from affecting your circadian clock very much.
But then your vision is going to be distorted because we always see in full spectrum.
The sun has this beautiful spectrum, right?
And then when you start seeing without the blue, things look yellow and it can get really weird, right?
I mean, so I personally, I've tried the blue blocker and I couldn't even wear them.
I thought they were just really horrendous, to be honest.
Well, along the lines of blue blockers, I think a lot of people mistakenly wear them all day long.
Oh, my God. That would be very bad.
A lot of people do that.
A lot of people do that.
They think that blue light is bad.
I think that the concept of blue light being bad led to a lot of product development.
And a lot of people are just assuming that viewing blue light is what was.
giving them headaches, when in fact, it might have just been looking at screens at close distance.
So here is the problem, right?
I mean, the blue light got the bad reputation because people who gave a pure blue light
showed that it caused a hugely retinal damage.
But again, if you're using blue light in its pure form, it has a lot of energy because
it's shorter wavelength.
But we're talking about full spectrum light.
There are ways now where you could change the spectrum of the light and keep it white between
day and night and change the content of the color without you noticing. So you don't even have to
affect your vision. So how would you go about doing that? So you just lower the level of the blue light.
You don't have to eliminate it. So just dim the lights. Dim the blue, but keep, then increase the yellow,
but keep all the colors in a certain white. So, you know, you could have different warmness of white.
And people know how to do this. Physicists know how to do this. People who work with light know how to do this.
Well, maybe somebody in the wellness slash, I don't like the word, but biohacking or optical community will do this.
I think it's really important.
I see so many people wearing blue lockers.
I don't know why they love.
Well, I think they're just uninformed.
I think, frankly.
And to be honest, it's easy, right?
It's easier to explain to somebody if IPRGCCES respond mostly to blue, remove blue, you'll be fine.
Right.
But that's not as simple as that because they also receive Rodancon input.
So you want to actually, and, you know, we could go into.
details that's boring for your listeners, but it also affect the adaptation properties of the
whole retina. So you don't want to do something so drastic that you take just one color of the
spectrum. It just seems very counterintuitive to me, to be honest. You've told me before as well
that just because these intrinsically photosensitive circadian setting, ganglion cells respond best
to blue light, if the light is bright enough, because they also get input from other components
of the eye, it doesn't matter if you block the blues.
If you're looking at bright light at night, you're going to disrupt your circadian cycle.
And that's why I didn't want to go into the boring details.
But themselves, the photoreceptors have a wide range of responsiveness.
So they are most sensitive to blue light, but that doesn't mean they don't respond to green light or too
shorter than blue light.
They respond to a very, very wide spectrum with different sensitivities.
So unless you understand the system, just removing 480, I don't think that.
going to do it.
4008 animators.
Yeah.
So your home is a cave at night, basically.
It's a nice cave.
It's a nice cave.
Yeah.
With candles.
That's right.
And you and your, and your, and your, and your, and your, and your cat and your lovely
wife, who I know who's also a phenomenal scientist in her own, right?
Yeah.
She is.
And, but you do keep your home quite dim to dark at night.
In fact, I did go to meetings with some of my friends who work on this.
they really struggled with me. They said we could have broken our legs living in the same
light environment that you do. So I am an extreme, but I measured it for myself and I asked
Ragey, my wife, if she's okay with it. She also liked the dimness. Both of us can see well in
dim conditions and that helps us a lot. But I think you have to measure it for yourself. You really
have to do, it's a very simple experiment. Just try to dim the light as much as you can. I call it the
minimum amount of light you require to see comfortably.
And that's how you want your environment, ideally at night.
This is what I think is the game changer.
If you reach to a level where it's just barely, you're literally on the cusp of seeing
uncomfortably versus seeing very comfortably, you are going to be very much better than,
I don't like to make it completely dark.
I think complete darkness induce anxiety in humans, to be honest.
so I don't like complete darkness.
Kids don't like complete darkness.
They like a night light.
Even nocturnal animals don't like complete darkness.
I mean, we have studies in animals that are nocturnal
that if you put them in complete darkness for several weeks,
they have severe anxiety and depression-like effect.
So keep the light dim.
You know, use red light that is very dim if you want to keep the room for sleeping.
Red light that is very dim,
has very small effect on circadian clock.
And below 10 locks of red light
literally doesn't affect sleep at all.
So there are ways to do it.
We need to educate the public.
And I feel like you literally need a whole lecture
to just explain to the people how to deal with life
because it's not as simple as people think.
Well, that's what we're doing here.
We're stepping through it piece by piece.
And the reason we're doing that
is because it's not as simple as saying,
just block blue light or get a lot of light during the day.
I mean, just to put it in perspective to tell it,
we only have three different cones in our retina
that respond to three different colors.
We call them red cones for simplicity,
green cones and blue cones.
Yet we have only three of these,
but we could see massive palette of colors.
So that tells you something.
If the system was just simply about a single color
and it's just removing four 80 or something,
just blue is sufficient, then we should only see in red, yellow, and blue.
We shouldn't see all these different hues of color.
But because the system is not that, we see all these different colors.
And that's why it's important to remind people that the white light is made of many different
colors.
It's actually like the rainbow.
That's why you see the rainbow.
It's made of many colors.
White light is never truly white.
It's made of a lot of different colors.
It's like the Pink Floyd album cover.
Exactly.
Exactly.
Exactly.
So dim at night, maybe dim red light ideally or candle light.
Find that minimum required light level.
Just make sure when you lower the light, sit for at least 10 to 15 minutes.
Let your system adapt because if you had a bright light and you switch it off,
surely you're going to suffer because your system didn't adapt it.
It was used to very bright light.
So you want to engage your rods, which take a long time to dark adapt.
So that's why I tell you, just wait a little bit.
Don't just switch it off the eye, don't see, put it on.
Put it off, sit down, wait for 10 minutes, ideally 15 minutes, and then see how you see.
And then once you do that, you will notice that actually, yeah, I could see quite well, even with much less light.
What do you do regarding screens?
Yeah, that's the hardest thing.
Again, I mean, there are beautiful programs that change the whole intensity and color.
of the screen. These could help dim your screen at night to the lowest part. I mean, yes, you won't
see it when you wake up in the morning, but then you can increase the intensity. So try to decrease.
I mean, just what we were talking about. Think of light, intensity, duration, color, and time
of thing. You really have to keep these four things together, right? We've roomed together at a couple
meetings from time to time, no longer, because one of us, not to be named, has a severe snoring issue
that made the other one pseudo-homicidal.
You can guess who that was.
But I've seen you check your phone after dark once or twice.
And you did it by sort of pointing your phone away from you, right?
And actually, I'm sort of half joking, and you dim it quite a bit.
I'm sort of half joking, but it actually makes sense that if you shine a flashlight in your eye,
it's much brighter than if you shine a flashlight on the back.
line. So if you just look on the side, most of the lights is going to go this way and you're
saying this way. So you're okay. So and as silly as that might seem to people listening, I mean,
what it means is that getting bright light in your eyes at night is something that you really want
to avoid. And but there is the reality. And even when I check sometimes if I, you know, if I have
something and I check it so fast and switch it off so fast. So I'm also aware of the duration.
I'm also aware of the duration, right? So duration,
intensity, color, and time of day.
Ideally, I should not check iPhones and iPads.
I don't use iPad at night because it's hard to lower it enough because it's a huge.
But even my iPhone, I try not to use it at night.
And like once it becomes 8.30 or 9, I don't look at it at all.
Unless it's World Cup or Euro Cup, in which case, Sanders on 24 hours, everybody.
That's only every four years.
It's a big soccer fan.
All right, this has been incredibly no pun.
illuminating. Let's talk about the relationship between light and some of these other non-circadian
or pseudo-circadian effects. And we will try and link those. But you had a, what I consider,
absolutely landmark beautiful paper published in nature a few years ago, showing that if you
disrupt the exposure to light or the timing of the exposure to light, that they're driving.
dramatic effects on the stress system and on the learning and memory system.
Maybe we could talk about each of those separately or together.
What are the effects on stress and the effects on learning when light viewing behavior
and sleep wake cycles are disrupted?
Yeah.
So just to remind you, you know that, but to remind your listeners that I was trained
as a circadian biologist.
So I really was indoctrinated into.
to thinking that light has to affect the clock, which then cause all these different effects.
So that's what I believe. That's my dogma. That's what would have made me really happy.
And then Tara Legates and Kara Ultimus joined the lab and said, and we started discussing a lot of
data and we said, what if there is a direct effect of light that we're missing, independent of
the circadian clock? So this is not an easy question to answer because as we've been talking
all along, light affects the circadian clock. So how could you
give light at different times of the day and not mess up the circadian clock.
Luckily, we came up with such a way, and that's why it was important to do these experiments
the way we did them.
And we proved that this light-dark cycle does not disrupt the clock.
There is still a circadian rhythm and does not cause sleep deprivation.
And yet, surprisingly, if you give light at the wrong time of the day, even without disrupting
the circadian clock or without causing sleep deprivation,
As you mentioned, you get a huge mood changes in the organisms and you get learning deficit.
So this really, and at the time, people have really hit us hard.
I mean, it was really hard to publish this work.
And you could, yeah.
Well, it came out in nature, so in the end, you prevailed.
But I want to make sure that I understand.
So you're saying that, yes, there are effects of light on the circadian rhythm.
Absolutely.
Meaning sleep and wakefulness.
Yes.
And their timing.
However, there are direct effects of light on mood that can be dissociated from the effects on sleep and waking.
So if I interpret that correctly, that could mean that when we view light and how much light could make us feel happier or less happy or even depressed, stressed, learning, etc.
Bingo.
Even if we're sleeping and waking up at the appropriate.
at times. Bingo. I mean, eventually, because we're talking about the whole system, eventually
when you start having the other problems, you also develop sleep problems. But you're absolutely
right. And in fact, now research from Diego Fernandez in the lab have found that now we know
that they actually require different brain regions. So we don't only have a theory. We don't only
have a light environment that showed they can be dissociated. We know that they use completely
different brain regions. So the SCN that I told you about earlier, the place where the central
pacemaker is the one that receives direct input from the retina through the IPRGCs to adjust your
circadian clock is not the area that receives the light input for mood regulation. It's a completely
different brain region. What's the brain region called? So the brain region, we called it the
perihabanilar nucleus. I'm not so sure how good or bad the name, but it doesn't matter is the
pHB. And what's really amazing, this region also received direct.
input from the IPRGCs, but projects to areas in the brain that are known to regulate mood,
including the ventral-medial prefrontal cortex, which has been studied for many years
to be impacted in a human depression.
So just by this amazing serendipity to find that a region that is so deep in the advanced brain,
like the prefrontal cortex is your executive brain, one of the most elaborated,
in humans to see that they received input from these ancient photoreceptor was stunning to us
and told us how much we didn't understand the importance of light on human behavior.
So how does that finding inform daily protocols for you or for other people?
I realize you can't leap to always from one paper to daily protocols.
But if light indeed does control prefrontal cortex, executive function, learning, stress, and movement,
and mood, and let's say I'm waking up each morning and I'm sleeping, what should I do differently?
That's why we came up with the tripartate model, because yes, we could think about just adjusting
the clock with lights in and being dark throughout the day, but that may not be important
for your whole physiological function. So now if we include these other effects of light,
that's why I prefer to still get a lot of light in the day. I don't want to be in very dim light
condition throughout the day. So even though it doesn't affect your clock, as you beautifully said,
Andrew, it may affect your mood and learning and memory. It may affect your alertness level,
which is going to allow you to learn better. It may affect your homeostatic drive. Maybe your
homestatic factor will go higher so you could sleep earlier. So it's important to think of light
as stimulating all these brain regions, which means is producing more activity, which in reality,
this is how people think of the homostatic drive,
that the more active you are,
the more the homostatic drive is built up,
the better you sleep.
So that's why we came up with the tripartate model,
because as a circadian biologist,
I only thought of light through the circadian clock affecting behavior.
As a sleep biologist,
they only thought of the homeostatic drive,
affecting sleep, affecting behavior.
And for people who study light for vision
and other things, they thought only of the environmental input.
But now if you put them all together,
you get with this tripartate model where it's really mind-boggling and it makes so much sense.
The organism doesn't want to depend on a single component, but if you could incorporate these three
together, you could have a beautiful system that is well adapted.
So let me tell you the sleep-wake cycle, right?
So we know there is a homeostatic drive to affect sleep.
You've had beautiful talks about that.
Which is basically the longer you're awake, the more you want to be asleep.
So that's your homeostatic drive.
We've talked about the circadian influence of sleep.
and the fact that light, dark cycle, affect the circadian system, which eventually affects sleep.
So these two components are well understood.
Now, the third factor is your direct light or environmental input.
How much stress, how much light you get from there also can highly impact sleep.
So even if you have a good circadian and homeostatic drive, if you're getting light at the wrong time of the day,
or if you're being stressed and thinking of them, then your sleep is going to suffer.
So you have to think of the three together to have a beautiful sleep-wake cycle.
And that's why we came up with the tripartite model.
The same thing happens with feeding.
I could beautifully put it to people.
Your hunger, your energy level is measured by the arqueous nucleus.
Your daily intake of food is, again, dependent on the SCN and light-dark input.
We found that if food is not available, there is yet a third input that is not dependent on the SCN,
not depending on the arcuate, depending on a completely different brain regions.
So the animal can actually start looking, or the human can start looking for food when it scars,
even at time when they are not supposed to be active.
So that's how the organism think they have to evaluate multiple inputs for them to decide
what is the best physiological outcome at that moment, at that season.
I see.
So I want to get into Arcuid and feeding, but just to make sure we can keep our hands around
this tripartite model.
So if I understand correctly, we've got the circadian influence.
Then you've also got the drive to sleep.
Actually, one of the ways that I think that can be best understood is if somebody ever pulls
an all-nighter, they get tired around 11 or 12 or so, and then very tired around 3, 4 a.m.
But then even if you stay up, sometime right around 7 or 8 a.m., your normal wake-up time,
you start to feel alert again.
Exactly.
And that's because the sleep drive is extremely strong.
but there's a circadian rhythm that drives wakefulness in the morning.
Okay, so those two of the components.
Right.
Before we get into the feeding component,
I want to talk about these direct effects of light on mood.
Okay?
Diego Fernandez, this data.
And this peri-habanular thing.
Sure.
So let's just, for the moment, set aside the tri-partite model
and just focus on what are the direct effects of light on mood.
And the way that I interpret what you've said so far is that the protocol that emerges from this,
if one is trying to optimize their mood,
is yes, see light, view light, I should say,
early in the day in order to set your circadian clock,
maybe also in the evening as well.
And of course, avoid light at night,
get it as dim as possible.
However, you said it's also a good idea
to get as much bright light during the day
as you safely can in order to improve your mood
independently of regulating your sleep wake cycle.
And that's a hypothesis.
Here's the problem where it's not gonna be
as satisfying as the circadian,
is that as you know, this brain region has been discovered very recently.
Habenula.
The perihabinula region.
We've known about it a long time,
but nobody knew what it did.
So we knew about the habinula,
but that's why the name is confusing.
It's actually not the habinilina, it's the perihaban.
Oh, near the Hibheny.
It's near the Hanuilis.
Why don't you just call it the Samur-Hattar nucleus?
I should have.
I don't know why I haven't done that.
Maybe because if you do that, it's not okay.
Okay, so for here ever after, the peri-habenular nucleus,
we should probably call it the Hattar,
Hattar Fernandez.
How about Hattar Fernandez Burs and Nukes?
Okay, this is like nerdy science attribution stuff.
But I'm just gonna call it the Hattar nucleus.
Wikipedia, line it up.
Okay, so this structure is taking light
and independent of sleep rhythms and circadian rhythms.
It's driving changes in mood.
How does it do that?
Is this through the dopamine system,
the serotonin system?
We still recently, we haven't identified this region very well.
We don't know what light does to it.
We don't know how it interacts.
So this is an area that is
right for discoveries and we're working on this right down. But that's why I said it's not satisfying.
This is like the function of sleep. Why do we sleep? We know sleep is very important to us,
but we still don't have a satisfying function of why do we sleep, right? We have hypothesis.
The why questions, I think it's our good friend and colleague at University of Washington,
Russ Van Gelder, who always says when somebody asks why, the best answer is just to say,
I wasn't consulted at the design phase. Exactly. Right. None of us really know why. No, but the point
is maybe I shouldn't have said why. What is the function of sleep? It's still very hard to know.
Why would, what is the reason organisms have to go offline for so long? You know, people assume it's
for repair, assume it's for learning and memory, assume all kind of stuff, but there is really no
clear function for sleeping. There is no clear function for sleeping. I mean, if you talk to people,
there are hypotheses. I mean, all we know is that if you don't sleep, or your sleep is very fractured,
messed up. And you could die even, right? I mean, it's really bad if you don't sleep. But we don't know
what is the function? What is that sleep have gone to organisms that couldn't have done with rest?
What if you just could rest without sleeping? Just sit down and rest. Well, my lab's trying to figure
out whether or not these non-sleep deep rest protocols can compensate for sleep. I mean, obviously,
sleep is better, but many people are not getting the sleep that they need. But okay,
Okay. So, and if people are sensing that Samara and I are about to start talking over each other and arguing, that's always the goal when we talk, right? Unlike other scientists I interact with, when Samar and I get together, it's considered a successful conversation if we get into a big fight and then go for a big meal where I pick the restaurant. Okay. So let's talk about food and eating and appetite. You had yet another. Yes, I greatly admire your success in this way.
Yet another incredible discovery showing that there are direct effects of light on appetite and feeding behavior.
Maybe you could just summarize those results.
And honestly, that paper is the one that allowed us to come with the tripartate model because we were thinking completely wrong about it.
We wanted this experiment.
It would be fun for your audience to hear why we started this experiment.
Remember that when we discovered the IPRGCs, we figured if they are the only.
relay to entrain the circadian clock, then you could kill them and have an animal opposite
to the one that we spoke, or a human opposite to the one that we spoke about earlier, where
instead of having no patterned vision and have circadian photo entrainment, we could produce
an animal that have patterned vision, but no circadian photo entrainment.
So circadian blind.
Circadian blind, but pattern cited. And we succeeded in that.
The problem when you have these animals, which I've told you many times,
times already is that they don't adjust to the day night cycle. So doing experiments on them
become very complicated. What is their behavior like if you don't have these cells? Are they awake
and then asleep? They just drift like the humans we've talked about. They think they're in Las Vegas
they're not. They stay up later every night. They come either. They're a clock. If the clock is shorter,
they come in earlier. If their clock is longer, they come in. So they're really messed up.
They really don't adjust to the, if they were in the wild, they'll be eliminated in a second, right?
There is no way they'll survive.
So me and Diego started talking and were like, what if we use non-light in-training agent?
And what is the strong non-light in training agent?
Food.
So we thought that the light defective animals will have more sensitivity to food and training.
Because, as you know, more than me, this is an area that you've worked really well on.
For vision, if you're image blind, your hearing and somatosensory get improved, right?
The lack of vision improves your hearing and sensation.
But we found actually that if you don't have the light system,
actually, the food ability to entrain the animal goes completely to the ground,
completely opposite to what we predicted.
So light viewing and feeding behavior are interacting in ways that support one.
another. And that's why we came with the tripartite model. We figured it's different than
sensation of the environment. When you sense with vision, vision and hearing interact, but your vision
is a real full modality. You want to see. That's what vision want to do. You want to hear.
That's what hearing want to do. You want to sense. That's what sensing want to do. But for the circadian
system, light, food, all these in training agents, they somehow have to interact to keep a coherent
system. You don't just assume if you remove light, this one is going to be stronger. No, they need to
know each others. The light informs when the animal is going to eat. Well, what I like about this so much
is that, you know, in the other, in the world outside of science in which I don't really exist in,
but that I see a lot of this kind of wellness, you know, stuff with this, all this mind-body
integration stuff. It's interesting because people view the body more as a system, right? A system of
organs that interact, as opposed to the way that standard science and medical profession is,
like you work on the liver or your ear, nose and throat, or heart and lung, or brain.
That's a great way of thinking.
But the biology is integrated.
Yeah.
I mean, and so for somebody who's interested in affecting their eating behavior, something that
you are familiar with and that we will talk more about your experiences of in a moment,
how should they use light in order to adjust their eating behavior?
So now that I've told you about all these interaction between the different inputs to the circadian clock,
just you think about it as an engineer, what would be the best thing?
The best thing is to know when your food times happen in the day, when should you get light,
and when is your circadian clock in your system, right?
So if you eat at very specific times of the day,
that's another signal that is telling your body, your clock,
you're in a certain time of the day.
So if you're having lunch at the correct time every day
and you're getting bright light,
now you have two systems that are informing your clock.
Your clock is going to be better.
So regular meal times.
Regular mean times that fit your circadian clock.
And in fact, if you do that when I started doing this
and it helped me lose weight,
is that I'm exposing myself to the right amount of light, dark cycle,
I'm eating at regular time.
It is amazing.
You will be not hungry, let's say you eat at noon.
You will not feel any hunger at 1145,
and then all of a sudden the hunger jumps.
This is clearly not an energy issue because it could not be that drastic.
No, the desire to eat is mainly driven by these cues,
these hormone cues that are very exquisitely timed to.
Sleep wake cycle, but also to light.
Exactly.
And you know, in the wild, you could imagine why energy level through the accurate nucleus.
You should explain to people what the arcuate is, because I don't think we've done that adequately.
The arcuate nucleus is an area of the hypothalamus that drives hunger and feeding behavior.
And what we're talking about is the fact that it's taking cues from your viewing of light, believe it or not, is impacting your level of hunger.
and this is a non-trivial way in which your timing of hunger and amount of hunger is regulated by when and how much light you view.
So let me ask you a couple practical.
Can I just, this is really, before you ask me, sorry, Andrew, we said we're going to fight.
But to me is the interesting thing to think about it.
In the wild, when you didn't have the availability of food that we have, the archivate plays a huge important role.
Because if you weren't successful in getting food,
then the ark is going to tell you, look,
you have to take risk and go get food because your energy level is very low.
And that's great.
That's tons of great research about that.
But I think what's missing is the fact in humans,
we're not getting to a situation, most of us,
we're not getting to a situation where we have low energy levels.
Most of the time, actually, we eat,
not because we want to, because we really have low energy,
but because we want to eat.
So I think that's why I feel that the timing is very important for us because we always have enough energy level for us to eat.
Well, I mean, I enjoy eating so much that I'll eat just for the sensation of chewing.
True.
I mean, I enjoy the taste too and I enjoy the social aspects when those are a part of it.
But I literally enjoy the physical act of chewing.
Absolutely.
Which explains a lot.
Okay.
Okay, so how regular are you, or do you recommend people be about meal times?
Because what I'm hearing is that light viewing behavior is pretty straightforward.
Get a lot of light in the morning and throughout the day, minimize it in the evening and at night, generally speaking, for sake of mood and circadian rhythm.
But for sake of regulating timing and quality, I should also say, of food intake, because people clearly make better choices about food intake when they are in.
anticipating a meal and they aren't constantly hungry. And so the ability to regulate hunger for
particular phases of the circadian cycle is quite valuable for all people, not just people trying
to lose weight, but all people. Are we talking about down to the minute? Like if I...
Absolutely not. All right. Plus or, so 12 noon is my normal lunch, let's say, plus or minus
half an hour. Okay. So eat around between 1130 and 1230. If that's the time. And it depends.
if you also do multiple meals.
Remember, three meals, that's a decision that somebody came up with.
I don't know why.
Nowadays, fewer people are doing that, I think.
Given our friend Sachin Panda's work.
Right.
I mean, so you could have two meals.
You could have very multiple meals that are distributed across your active time.
I agree with Sachin's Pandas' work that try to avoid eating when your system is supposed to be relaxing,
when you're supposed to be at non-actors.
active time. So, you know, limit your eating to the active time of your cycle. And that seemed to be,
and Joe Takash is doing some beautiful stuff on this. That seems to be incredibly important for
aspect of the circadian. And for health. And for health. Yeah, I mean, Sachin, we're referring to
Sachin Panda's work. He wrote a beautiful book called The Circadian Code. Maybe Sammer, with some luck,
you'll write a book as well, meaning the world would be lucky to have that book. But Sachin's data
really strongly point to the fact that liver health, brain health, metabolic factors and endocrine
factors of various systems and organs all seem to benefit from having a period of each 24-hour
day in which we are not eating anything and then eating it very regular.
Absolutely.
Let's talk about eating in meal times and let's move a little bit away from the science
for the moment, although we will return to it and talk a little bit more about your experience
eating in meal times. So you're looking in good shape lately. Thank you. I know you've been putting
work into it. Yeah. We talk a lot and you've been exercising and you've been eating well,
meaning quality food. You just came back from Jordan where I'm assuming the food is amazing.
It's the food is amazing. And honestly, usually I gain a lot of weight in Jordan, but this time I
didn't gain any weight, which was really nice. So yeah, you've, you've, when I met you, you were probably
about 100 pounds heavier than you are now. Yeah, 275 pounds. I'm 219 now. It's crazy.
You had a lot of vigor then and you have a lot of vigor now, but I know that you undertook a
very specific protocol in order to lose the weight. Based on your understanding of the circadian
system and of light and appetite and mood, maybe you could just tell us a little bit about
what that schedule looks like. And we realized that this is not a prescriptive for everybody,
but you found what worked for you.
Maybe just describe those changes.
I mean, honestly, I followed my circadian cycle, right,
of what we've talked about, right?
So I dimmed the light at night, I slept at regular hours,
I ate my major food in breakfast and lunch when I'm really active
and I'm really hungry.
And at night, when I avoid dinner,
because my circadian system really shuts off at three.
I'm an early person.
Like, you could give me anything I would eat before three.
After three, nothing appeals to me anymore.
My system is shut off.
What time are you going to sleep and what time you're waking up?
So in my case, I should have put this out.
I mean, I go to sleep literally at 9 a.m.
I mean, I literally, five minutes after 9 p.m., I'm completely out.
And I wake up between 4.30 and 5 a.m.
So if I extended, I go to 6 a.m., but very rarely, it depends of how tired I was.
And that, as I recall, was an important set of changes for you to be able to regulate your food intake.
Absolutely.
because then I'm having very big breakfast.
And again, for different people, it's different.
I have a big breakfast at 7 a.m. maximum.
So I have a big breakfast, coffee and all the stuff.
Then I have some simple snack around 10.
Then I have regularly lunch at noon or between noon to 1.
Then I have another snack at 3.
And the hardest time to regulate the food is between 12 and 3.
This is what I'm, I really feel hungry.
This is your equivalent of kind of late evening for most people.
Yes.
So for me, it would probably be between 7 and 10 p.m.
Exactly, exactly.
And then at night, I'm completely not hungry,
but usually, as you said, the enjoyment of food,
like when my wife cooks some really beautiful Indian food,
I eat, but I'm not hungry.
And I notice if I eat with that, I usually gain weight,
but if I regulate that at night, I also lose weight.
So there is a combination of all these things that help you
adjust the input of food, the input of life,
the input of the clock and the drive to hunger.
Yeah, I appreciate you sharing that, and I want to emphasize that some people are not hungry
early in the day. They might be late shifted people, in which case, eating later in the day will
work well for them.
Well, we'll work as long as they don't eat early in the morning. That's just you have to work
with your schedule, with your active schedule.
Yeah, you and I've been talking about this offline for years. I'm glad we're finally having
this discussion publicly now. What we're talking about really is finding your ideal sleep
schedule. Exactly. And finding your ideal eating schedule. Exactly. And understanding how those two
things interact. And you know, the nice thing, as you said, finding them out is going to help you to
understand how they interact because we know from the tripartite model that they are all interconnected.
And for each person, they're going to be interconnected differently. So for each person, you would,
you know, for me, if I exercise at night, I'm going to mess up my whole system.
So when do you exercise?
Morning. Morning works great for me. I mean, it's amazing. Morning exercise for me works great. I tried one time because it was easier for me to exercise at night before I leave when the traffic is there from the initiation. And I think that missed me up because I couldn't sleep well and I could wake up well and that led to more changes in my food. I gained weight again, actually. Believe it or not, even though I was exercising. So I think this really makes me think that you have to think of the tripartite model.
to see where is the best times
and what is the best interrelation
between the different component,
as you beautifully said,
between your meal times,
your light exposure and your sleep,
that works for you.
Well, thank you for that.
Usually, Sammer's insulting me today.
He's complimenting me.
I'm gonna compliment him right back by saying,
this is the first time that I've ever really understood
how, yes, light can control sleep,
yes, it can control mood,
yes, it can impact.
feeding, but that it's really about doing the self-exploration to align those in the way that works
best. And what I'm hearing, tell me if I'm wrong, but what I'm hearing is that once you understand
what gives you the best sleep wake cycle, then you should exercise during the period of time in which
you feel most alert. And if it works for your schedule, ideally you would also eat during the time
in which you feel most alert, and then stop eating and stop light viewing behavior as you head towards
sleep. Right. So the only thing I would say that complicates all of this, and that's what makes me sad,
is your light exposure. Mine personally. Sorry. I'm just kidding. The people's light exposure, right?
This is what complicates it, because you're not going to be able to figure all this out if you're
shifting yourself out of your comfort zone. By viewing. By viewing light at the wrong time of the day.
So let's say, let's say you're, if you were under an idle, natural conditions, you're a person who,
would sleep later than me, let's say we'll sleep at midnight and wake up at 8 a.m.
Let's say you don't eat anything till noon and as you said, you eat late in the evening.
Then this would be perfect for you.
But now see what happens if now you include the light component.
Now if you push your sleep from midnight to 4 a.m.
Now you're waking up in the morning and you're actually really not the morning, you're working
up at noon instead of 8 o'clock.
And the time where you're not supposed to be hungry, now you're getting.
going to start eating directly at noon or something like that or even delay it.
And now you're shifting your whole cycle and you don't know if this interaction between your
sleep feeding and the light, dark environment are still going to be maintained on.
And that's the problem that people have.
So, you know, as I'm hearing this, what I'm realizing is most of us, probably me included,
are messing up at least one, two or three of these components.
But that the probe, the way to figure out what's right for oneself,
is to start manipulating light exposure.
Right.
And I'm gonna be honest, I'm biased,
because I believe that light is the strongest time giver.
And a lot of people disagree.
Some people think feeding is.
I always thought that light was the primary zite giver,
the primary light.
Yeah, but a lot of people think it's food.
A lot of people even sometimes mention social interactions.
They read the literature?
I agree with you.
I totally agree with you.
I mean, my understanding is that light is the most powerful driver
of the things we're talking about.
That's why I think we need to regulate
this first and everything else fits.
And you know, the nice thing is that your sleep, wake cycle, and exercise tell you really
bluntly if you're doing it right or not.
Tell me more about that.
I tell you more.
When I shifted my exercise, honestly, things fell apart like never before.
When you moved from exercising early in the day till late in the day?
It completely fell apart for me.
I didn't enjoy exercise at night.
My pain tolerance for exercise wasn't as good.
I'm talking with n equals one, and I'm aware of this.
I've never tested this empirically.
But at least to me, it really messed up everything.
I started having problems because my body temperature will go up and that will affect my sleep.
I possibly was running in the gym with a lot of lights.
So maybe the light was a component.
But for me, exercising in the morning, it's so much better for me.
But a lot of people can't even think of exercising in the morning.
So it depends on when you feel comfortable in your sleep wake cycle and your exercise.
I think that tells you if your system is in.
in synchrony with one another.
That's really interesting.
You know, I, we're good friends, our friend Pat Dossett, right, that we both know, you know,
did nine years in the SEAL teams and he's one of these people.
He says, you know, he's happy to go for a runner swim anytime between 430 a.m. and 6 a.m.
And he'll train in the afternoon too because, you know, he's a SEAL team guy and they'll
do whatever anytime.
That's part of the phenotype.
But he feels best doing that, right?
I'm a mid, I like to exercise mid-morning.
And I'm happy to skip eating until, you know,
12 or 1.
Great.
And I like to go to sleep around 11, 30, 12, because I'm a normal human being rather than you
who goes to bed at 9.m.
What about that, actually?
I've never asked him what time.
So Pat's ideal to sleep time.
I've asked him this would be around 8.30 or 9.
Oh, I'm like that.
No, but he has, yes.
But he has two young children, two years old and a newborn.
And so the cycle is disrupted.
Yeah, but that's known, right?
I mean, the effect of childbearing.
And I think we could talk about this.
that's more complicated, but that's pretty much.
Yeah, I mean, I think we need to come up with a new name for a chronotype
because chronotype implies that it's just about sleep and wake, being an early bird or a night owl.
And what we're also talking about is how exercise and eating match on to those.
And the phase relation between them.
Right.
And the phases between different components, as you said.
Because they interact.
Because they interact.
Right.
And they don't have to be in the same phase.
Like, let's say my light and food.
could be very close to each other.
Your light and food could be different, right?
The phases don't have to be, they can be plastic.
So you have to find this for yourself.
You may be a person who eats late at night,
exercises late at night,
or you may be a person who exercise early, eat later.
So it doesn't, as long as the phase is good,
that's what you have to find out.
Okay, and if I understand correctly,
when you're talking about phase relationship,
it means you want to lump exercise, feeding, and light for...
And sleep.
And sleep.
in a way that as a coherent and total system
makes you feel really good.
Temporally in a great order.
Absolutely.
And I think that...
And I could tell you to me,
is literally getting exposed to some,
you know, clearly in the morning,
clearly at noon I go out,
I keep my windows in the office completely open,
eating mostly in the early time of the day
and exercising,
and literally at the end part of the day,
I'm literally in a more,
thoughtful, vegetative state.
Like, I really can't, like, after five, I tell my students,
if you want to tell me anything complicated, you're wasting your time.
My brain just doesn't function.
So even though I only sleep at night, but I'm really starting to shut off, ramp down.
Really, I mean, it's, you know, I could send the email,
talk about brainless stuff, but my power, my energy to do powerful stuff
really drop tremendously.
So all my students who know me very well, they put the meeting,
with me early in the morning because they know this is when I'm.
So everything for me and for me is very tight.
So it could be different.
It's very clustered in the morning.
It's all tied together.
And literally the remaining part seems to be just a, you know, vegetative state.
Yeah, you and my bulldog Costello, who unfortunately passed away recently had that.
I did not.
Yeah.
Samar and Costello were good friends.
Yeah, sorry to break it to you here.
Yeah, he had a good long life and he went easy.
But he had a circadian clock that basically would just sleep around 24 hours a day.
Minimal activity interspersed every third day or so.
You do have this morning vigor.
Yes.
And I think other people are going to have more of an afternoon vigor.
Do you think that this can change across the lifespan?
The rumor is that teenagers naturally want to sleep in later and stay up later.
Do you think that's social rhythm or do you think that that's actually biological?
Yeah, that's a tough question.
I mean, it could be both.
One thing that worries me is that it seems that if anything with age, this morning rigor gets stronger.
You mean you want people become more of morning.
More of morning.
Why is that were you?
I think that's good.
Because for me, I'm already a very shifted morning.
I don't want to be one of these 7 p.m. to 1 a.m. sleepers at some point.
On the other hand, it's also kind of nice because it's quiet and you can get work done.
Yeah, but honestly, from 4.30 to 7.30 when my wife wake up,
It can be very lonely.
Yes, you achieve a lot, but it's quiet outside.
It's, you know, so I don't want to be at 1 a.m.
Let's put it this.
You can tell Samra is more social than I am.
That's right.
That is true.
We should touch on that, actually.
So your wife is, she follows a different schedule.
Yeah.
And so the social rhythm is important.
I think what should we do?
How should we conceptualize and how should we adjust ourselves according to the social
And I honestly love this hypothesis that people came up with.
And Pat's kids reminded me of because kids are really going to disrupt your sleep week cycle,
it seems like there is a chrono attraction that usually people who attract each others have actually different sleep wake schedule.
And the idea being is that this allows them to take care of their kids throughout the day-night cycle.
And have a peaceful marriage.
And have a peaceful marriage anyway, right?
So, I mean, we didn't have kids me enraged you, so maybe this is, but it seems like evolutionary,
it makes sense that if you want to protect your kids, you don't want everybody to be mourning
rigor and then the kids don't have, so you want the distributed across.
It makes sense.
It's a reasonable argument.
I've heard that one of the reasons that people think that the clock is not exactly 24 hours,
but is 24 hours plus or minus, you know, 20 minutes or so is because we believe.
that we evolved in clans or groups, villages, whatever, that were about 100 to 200 people.
And in order to have protection around the early morning hours when we're vulnerable to predation,
and in the late night hours that you would want some individuals of our species to be naturally
more like night owls and some more like early people. So your theory of parenting is
similar in that way. The social rhythm is a powerful rhythm, though. Meaning,
If I go out and I'm tired, let's say I'm tired at like 9.30, I don't want to go out.
Can I just say something about that?
I think the social rhythm is powerful at the obvious levels, like it affects your sleep, it affects how much you wake up or eat.
But I'm not so sure it's as powerful as people think on the clock.
Now, eventually it will mess up the clock because now if you're doing a lot of social at night, getting enough light, eating at the wrong time of the day, eventually you're going to have an effect.
But I don't think that's the social interactions themselves have been shown to affect your clock very strongly for some reason.
That's good to know.
Well, for people hearing this, they're probably getting the impression, like, I'm the night owl.
And then Samir is the one that's in bed at nine and then, you know, wakes up at four.
But having attended many meetings with Samara, I can tell you that he's the party animal.
So let's talk about that.
I mean, let's talk about the fact that you're the partier who's up until two.
dancing at these at these various meetings which i've seen yeah actually a good dancer i'm told but
what should we do when we do stay up very late for whatever reason could be because we had to
take a midnight trip to the hospital the unfortunate reason or it could be because you're in the
presence of people that you don't see very often and you and you go out for a really nice night out
on the town and you and you get to sleep around 2.30 or 3 in the morning how should one get back on
schedule, do you force yourself to then get up and view light at the normal time that you would
get up and view light? Or do you allow yourself to sleep in? What's the optimal protocol?
I would allow myself to sleep in and remember this is a long term effect. This is something that
you live with for a long period. And remember, I told you about the experiments we did with the
mood. These require two weeks of that light schedule to cause mood disturbances. So these don't
happen just in a single day. So this is the way you justify staying out late every once in a while.
Well, in the meetings you've seen me, I've done this for five or six days continuously,
but what you didn't see that when I came back to my home, it took me two weeks, as if I did a jet lag.
So I really do suffer for two weeks after doing a six crazy night of staying up at night,
drinking at the wrong time of the day.
So it's not that I'm completely okay with it.
When I go back, everything goes back.
It takes me actually literally two weeks to recover from the circadian rhythm meeting that you've seen me partying at some point.
Which is kind of ironic, the circadian rhythm, meaning people are totally disrupting the circadian cycle, but scientists are human beings too.
Right.
So I think if you do it at very little occasions, I think you should not worry too much that this will have lasting impact.
And the good news is that if you readjust your schedule, you could come back to it.
The problem is when you maintain these wrong schedule for prolonged team becomes chronic, prolonged periods of time, that's when you have the problem.
and the accumulation of the problems.
So when you have sleeping problem,
you produce metabolic problem,
when you have metabolic problems,
you produce lack of exercise,
and you could see how things can spiral out very quickly,
and then it would be hard to come back to it.
Well, certainly, sleep disruption is both a symptom of
and a cause of almost all mental health disorders, right?
And certainly the metabolic syndromes
that people are talking about nowadays and all of this,
it all funnels back to light.
This is what's so remarkable.
And so we have these devices.
And I use my phone and I use my computer.
But do you think that the mere dimming of the screen
or not interacting with screens after, you know,
with say 90 minutes or two hours before bedtime,
according to what we're saying today,
this should have a profound effect on all these.
And I really believe it does.
And I, you know, again, I think as Pat has did these these inventions where you get a pouch, where you put your phone in a pouch.
So what Sammer is referring to is our friend Pat, this former seal team member that we, that, who's also a very impressive person in the landscape of business and family, etc.
Real, a superhuman from, by any regard has this habit of taking his phone and putting it into a sealed pouch in the evening.
So it's basically.
And in his role.
He sends you actually these seal, you know, batches.
And so that, I think, is a great idea because not only it will take away the light from you,
but it also take away the distraction because you want to repair and recover.
And sleep does that.
And if you have your phone dinging all the time or the light flashing from it,
you're just not getting enough sleep and you're causing yourself major problems.
I'd never ask you this, but I realize now that I,
I should have long ago, but I'll ask you now, why and how did you get into all this stuff?
Yeah, I mean, honestly, I first of all, I wanted to study genetics, and I knew I wanted to do PhD in genetics.
But I only got accepted in one university at the time, and I joined the learning and memory lab.
And I liked learning and memory at the beginning.
I worked in the snails and Applegia Californica and started looking at learning and memory,
Then the same lab was looking at these daily variation.
I was really struck.
Like, you never think about it outside of science.
It really struck me that organisms can measure day biologically.
That was very shocking to me.
And I just really got attracted.
And I wanted to see, why does this happen?
What is the effect of different times of day?
And I just stuck with it.
It was mind-blowing for me who was in medical school that I've never heard about it
before, you know, it's really amazing medicine, I think still now.
We are very good at looking at stuff spatially, but we're very bad at looking at temporal aspects.
So we always, you know, like to see images, static images, spatial information.
Take an x-ray, measure a temperature, measure a blood pressure.
Exactly, but we don't think of temporal.
And, you know, you talk to John Hoganash right now, and he's telling you the importance of
chrono medicine or chrono pharma, pharma, whatever.
the word is. And it's just, it really just getting the drugs at the right time of the day is going
to be essential for our health. Do you think that's going to come from using better trackers,
like aura rings, whoops, these kinds of things? I love the trackers, but I think there's even
more exciting discoveries. Now you could take a single blood sample and measure many biological
components and figure where you are in the circadian clock, something that was very hard to do
before. So if you have a marker to know where you are in the clock, you could actually understand
more the effect of everything, exercise, feeding, light input. What is the marker? So there are some
papers from what's her name Phyllis Z and from Al-Kheim Kramer, where they measure multiple
RNAs that are known to tell you what phase of the clock is or multiple proteins or biological reactions.
and depending on a combination of factor, not a single factor,
you could tell where you are in the circadian clock.
So they could, instead of just measuring temperature or melatonin,
just one measurement.
And melatonin specifically is also complicated by the fact that melatonin is affected by light.
And temperature, your temperature and sleep can be easily dissociatable, right?
When you travel across different times,
when you sleep at different times in the temperature cycle.
So having multiple components measured will give you a better determination of your circadian phase.
And understanding your circadian phase in humans will tell you what is the effect of giving certain drugs at certain times of the circadian phase.
So in the future, this is going to be studied at a much higher level when you can determine the phase in relation to all the other stuff.
It's striking to me that in all animals besides humans, if they're not going to be able to be able to, if they,
they deviate too much from the appropriate exposure to light and light dark cycle, they essentially
don't mate and or die and or get killed off. But in humans, we are able to override that at least
to some extent. But the ways in which we suffer appear to be things like obesity, metabolic syndromes,
reproductive syndromes that accompany the other syndromes, you know, endocrine syndromes,
and mood and depressive disorders. Is there any effort,
at the level of the nationally or laboratories that you're aware of to try and use light in order
to improve mood and mental health.
I mean, honestly, this is my mood show.
This is the thing that I think people, because it's, I say, don't take a pill, take a photon.
I mean, you take pills.
It's important.
I'm just making it that really we have an opportunity right now with the incredible advances
of LED lights, of changing spectra of light.
of regulating intensities.
And just for simple changes,
you could really improve sleep, wake cycle, productivity,
and still you could actually get more done.
Because as we've talked about,
when you have all these messed up,
now you have to sleep more,
but your sleep is fragmented.
It's not very good.
And you can't focus when you do to death.
And you can't focus when you don't have alertness
when you need the alertness.
So having all these,
you could allow you to do,
even more actually at the end than less.
And that's the exciting part of it.
One of the questions I get asked most often about
is about ADHD.
I think there's a lot of self-prescribed
as well as clinically prescribed ADHD.
People are having a tremendously difficult time focusing
and not just because they're sleepy,
they just can't seem to anchor their attention.
And there could be multiple reasons for this,
but there are now several clinical trials ongoing
using light to try and anchor people's attention
and mood and well-being for sake of focus.
And I think that while I love this saying that you mentioned, you know, take a photon, not a pill.
And with due respect to the need for pharmacology for certain people, I think most people just haven't really dialed in their relationship to light in a way that allows them to rule out whether or not they need medication.
Absolutely.
That's the best way to put it.
I can't add to that.
Let's talk about jet lag, but not in the context of, okay, if somebody's traveling from Europe to,
Japan or from these because that varies tremendously, right? I mean, there's as many different variations
on travel as there are individuals out there and with goals and jobs, et cetera. But rather, let's talk
about what are the two or three things that people can do to adjust their schedule quickly?
Yesterday, I called you and said, look, I know somebody who's traveling six hours. I won't even
mention in which direction because I don't want people to anchor to that example. And you described
some very simple tools of viewing light a little bit earlier than normal and getting on the local
food schedule, et cetera, that would allow them to shift more quickly. And the reason I want to have
this conversation is, yes, for the travelers and for the shift workers, but mostly because of the
fact that you've proven again and again that people are disrupted in their circadian behavior
at home. So what are the, aside from what we've already talked about, how can one adjust
quickly to a new schedule.
Like, let's say fall classes are starting.
You start a new job or you have a baby or a puppy or whatever.
What is the best way to shift the clock quickly?
So it's very simple, as we've talked yesterday.
So imagine you're in the outside with no environmental, with no industrial light.
If your body thinks you're in early evening and you see a bright light, what does this tell you?
Oh, wait, this is not early evening yet.
It's still early afternoon or late afternoon.
afternoon. So I have to delay my clock to go back to late afternoon. So if you get light early in the
evening, it delays your clock. So what does- Meaning that makes you want to go to sleep later?
Yes, it delays your clock. So you're in New York, right? People in Italy have an advanced
clock because they are six hours ahead of us. So if you're in New York and you get light early in the
evening, you delay even further from Italy. So now you're delay.
laying away from Italy.
Now, the same thing happens.
Let's say you thought dawn came up and you thought it's already dawn,
but it was, let's say, three o'clock in the morning or four o'clock in the morning,
and then you get a bright light and you say, oh, wait a minute,
don is not up yet, so I should advance my clock.
Or I'm at night, but I'm getting bright light, so I should run because dawn is already up.
So then later in the night, later in your night, and actually,
just happens that in humans, you get a temperature in a deer later in the night, low temperature
in your body. After that, light start advancing your clock. So if you want to go to Italy,
instead of getting light early in the evening, you want to get light after the temperature low.
So you could advance your clock even before you go to Italy and you're catching up to the
Italians just by using light. It's as simple as that. So you could do it for every region. You could
calculate how much they are advanced of you. You could know how much these light shifts happen
per day. And you can calculate what you what you need to do, very simple math, to adjust either
in direction of delaying if you're going from New York to California, you want to delay your clock,
or advancing if you're going from New York to Italy. So in order to make that a visual, and because
a lot of people are listening to this, not looking at it on video, we will put a zero cost
downloadable figure of this on the Hubermanlab.com website related to this episode.
But I think I can summarize it in language as well.
If I understand correctly, what you're saying is if your typical wake-up time is say 7 a.m.,
then your low point in temperature probably occurs somewhere around 5 a.m.
And if you view light right around then, it's going to essentially advance your clock.
Yeah, because then your body thinks, oh, it's seven o'clock.
advance your clock by one to two hours.
But if I were to view light, say, at 3 a.m., then it would probably delay my clock.
Yeah.
Okay.
Yeah.
So, and then let's say I land in a new schedule.
I want to adjust to a new schedule.
Let's say I didn't manage to do anything with my light viewing before I went.
And I didn't anticipate the trip.
Suddenly, I'm on a new schedule.
Okay.
I was told that one of the ways to help shift the clock and to avoid gastrointestinal issues is to
eat on the local schedule.
to start basically behaving like a local,
even though your circadian clock will take a little bit of time to catch up.
Absolutely.
But you have to remember the light, right?
So let's now that we explained it very simply.
Let's take a very simple example, right?
New York to Italy.
That's a simple example.
New York time, Italy time, six-hour difference, right?
So let's say you fly from New York at night,
you reach Italy at 8 o'clock in the morning.
What is the time in your New York time?
Six hours back.
Six hours back.
It's 2 a.m.
So when you land Italy, you want to avoid light like the plague.
Yeah, you could eat, but you really don't want to get a light.
Right, because otherwise it's going to delay.
It's going to delay.
It's going to send you to California instead of sending you to Italy.
Right.
And so this is such a key point.
If anyone's confused about this, we will put some diagrams up.
But what Samra is saying is so crucial.
Just because getting bright light in your eyes early in the day is really beneficial.
when you're at home, when you travel to a new time zone,
you have to take into account what your body thinks,
what, excuse me, you have to take into account where your body thinks you are.
And so if you're looking at the Italian sunrise,
having just flown from New York to Italy,
and you didn't prepare for that trip by waking up a little bit earlier in anticipation.
Multiple days, yeah.
And if you light at 2A, excuse me, at 6 or 7 a.m. Italian time,
beautiful Italian sunrise, you are going to delay your clock.
you're going to basically throw yourself back to California, but you are in Italy.
You're going to throw your biology back to California, and you are going to be up in the middle
of the Italian night, and you're going to be a miserable.
I'll tell a brief antidote because I called Sammer in desperation. A few years ago, I traveled to
Abu Dhabi, NYU Abu Dhabi to give a seminar, 12 hours out of phase. It's a 12-hour flip.
And I thought I could just muscle it. I thought I'll get up, just view sunlight when the sun comes up.
and I fell apart mentally and physically.
And Sammer came to my rescue.
I called him.
I said, I don't know what to do.
And he said, go to the gym, went at the local dawn, work out, eat, and then view sunlight starting the next day.
And that basically got me on to schedule.
So I used food and exercise to adjust myself because my light viewing activity was just completely out of whack.
Yeah.
I mean, and we talked about other things.
So you have to calculate it, but you're absolutely right.
I mean, it's very important to avoid getting their own light information when you're trying to adjust your body.
Because otherwise it shifts to the other cycle.
Absolutely right.
Well, you are one of these people that has such vigor.
It's one of these things where, having known you all these years, you have a tremendous capacity for work and for soccer and for arguing, respectful, arguing, and, you know, some of you.
Sometimes, you know. It's getting worse with the age.
Yeah, well, we could talk about that offline.
But I think a lot of your vigor and a lot of your ability to work hard and focus and really do so many things at an impressive level is because you think about these issues.
And you think about when you're going to be optimal for focus, when you're going to be optimal for exercise.
And the when is the key.
And I think a lot of people live in the landscape of feeling like there's something broken inside them because they can't focus or they can to it.
It's all subconscious, right? Remember, it's all subconscious.
These effects, and you're absolutely right.
Now, honestly, joking aside about age, I really agree with you that I think part of the reason I'm continuing to be able to do this, that I really think about it and I make sure that I keep everything aligned.
And that actually helps me a lot.
Like, I don't suffer in sleep.
I don't suffer in waking up.
I never use a timer to wake up.
I mean, people say, aren't you scared?
Like, you have to give a lecture at age.
or 7.30, I was like, there is no way I'm going to go beyond that. It just, even if I try,
I can't sleep beyond 6 a.m. in my regular times. It's just, it's not going to happen. By 4.30,
my eyes are wide awake and I'm in bed. It's just, system is so aligned. It works.
A lot of times people will say, how come I go to sleep? I fall asleep, fine, but then I wake up at
three or four in the morning and can't fall back asleep. Is it possible that those people were
supposed to go to bed at 8 p.m.? It's possible.
I mean, it is possible.
It is also possible that sometimes people will wake up and go back to sleep.
But yeah, I mean, it is possible.
Or it's possible that their clock is completely misaligned
that they are getting maybe a nap time at night when they are supposed,
and then they possibly feel so sleepy in the day.
So all these are possible combination.
That's an interesting idea and considered.
So what they think is their sleep,
their body is so out of whack with the light dark cycle
that it's actually a nap.
A nap.
Or the weaker part of the sleep.
I mean, you see this when you travel to different times on before you adjust.
You go to sleep really well, but two hours later, you're fully up.
Two hours.
If you were so tired and this is your regular sleep, there's no way you're going to wake up in two hours.
So then you feel very sleepy later in the day or something like that.
So it depends of how your whole system is aligned to the environment.
That's a very interesting idea.
I think that's going to resonate with a lot of people.
wake up every morning around three or four,
I generally use the bathroom and then I fall back asleep
very deeply.
Doesn't seem to disrupt my daytime wakefulness.
And I think a lot of people obsess over that waking up
and worry there's something wrong.
Provided they can go back to sleep, it's okay.
If you can go use the bathroom, go back to sleep,
that should not be a problem.
Maybe some people, when they go to use the bathroom,
they use very bright light and then they get an alerting signal.
So if you, maybe that could be as simple as that,
that affects you.
Maybe when you wake up, you put tons of light
or you start reading your iPad.
So there's all these combination
that we still don't know about
that could be affecting their sleep wake rhythms
and their sleep maintenance.
Do you use melatonin?
Do you take melatonin?
I don't need it, to be honest.
In my case, there is no reason to use it
because I could guarantee you
that by maybe eight o'clock my merotonin
has already started to go up.
And by the time I sleep,
my melatonin is very high
because I don't use a lot of fun.
lights after sunset. And light inhibits melatonin. And light really blunts melatonin.
You hear this myth that the pineal gland calcifies as we get older. Is that, do you know anything
about that? I mean, I've heard about that, but I don't know what does, I mean, there's not very
clear evidence that affects the sleep. I don't know much about it, to be honest. The evidence that I've
seen is that, yes, there's some calcification around the pineal, just because of where it sits in the
in the brain. It's close to some bony, bony structures. But I don't think there's any evidence that it
has negative effects. I mean, if you still have, you could measure melatonin, and that should tell
you if it has negative, it's such an easy thing to do. I think this is more of a internet wellness
thing that got outside the cage. I think you're absolutely right. Yeah. It sounds terrible
calcification of the thing, right? The heart thing, right? Yeah, exactly.
Let's talk about seasonality a little bit.
I learned, and I don't know if this is still true,
but that most suicides occur in April, in the spring.
I think there's a poem that says April is the cruelest month.
I think the poem begins.
Are there data that suicides are more frequent at particular times of year,
and if so, is the spring that time of year?
Yeah, I mean, a lot of people talk about.
this. And one of the hypothesis
is that the winter
month that are very bad for
mood make people not
wanting to do anything and they
get into such deep level of depression
that when the sun comes
up, they get actually the energy
to act on their depression, which sounds
really terrible and it is terrible.
So that's the idea
that the lack of light throughout the
winter caused them to go into such
depression that they don't feel like doing
anything. And when the light
comes in with rigor in the spring, it gives them that,
after all the depression they suffered,
it gives them that push to take that sad final act, I guess.
What other seasonal effects have been demonstrated in humans?
Yeah, I mean, I think in humans,
it's not very clear because we don't think about seasonality,
but if you start thinking about us,
I think we go through major seasonal changes.
I really do.
I think our eating pattern changed across the year,
I could tell you that.
me thinking about this.
There is a clear changes that happens to me across the year.
But for animals, this is really essential because for animals, they have to time their mating
behavior with when they deliver their progeny in the most abundant amount of food.
An artificial light is causing major disruption because if you change the way these animals
are receiving the light information, they either start mating much earlier or much later
and their numbers dwindle and they get into the dangers of really completely getting eliminated or extinct.
Well, human birth rates are definitely going down.
I mean, in the U.S. in particular.
In some areas, not others.
Not others.
Right.
But are there other effects of seasonality on humans that we are aware of?
Honestly, like you could see it, honestly, you could see it perfectly, I think, in Scandinavia.
I mean, you could talk to people who live in.
Sure.
seasonal depression.
What season of depression is one, but actually when you start asking them questions,
they tell you like in the winter they barely could wake up, they barely have the energy before
even depression, even people who don't get seasonal depression, they'll tell you our energy
level is lower.
Our ability to go to work is not the same.
And in the summer, most people actually sleep very little.
They tell you, we really can, we feel like we're manic, we have all this energy.
and not in a negative way in a funny way, right?
I mean, but if you want to sleep, we have to put these curtain.
I think in these situations, you could really appreciate the seasonality of humans.
I think we kind of destroyed our seasonality because we don't get exposed to that much natural light.
We have all this artificial light.
But I think, honestly, one of the thing that is going to happen,
if they follow your recommendations about giving light at the same time, giving food,
Give it.
Wait, let's be clear.
Those are your recommendations.
Well, I mean.
No, I'm just, I'm not, I'm just fair attribution.
What I'm saying is that this is going to cause them to also experience some changes across the season because now they're going to see the sun differently.
If you're going to go out in the morning, in the summer, you're going to get a much bright.
That's why I don't like the change in time.
I know people think, oh, because you're biased.
Because I think.
Wait, wait, wait, sorry, the change.
Are you talking about daylight savings?
Daylight saving.
It's such a bad idea.
because it disrupts that rhythm that you're having.
Because I think your body, if you keep that rhythm,
you will see the whole seasonality.
And I look at it from a different aspect than other people.
It really, and people say I'm biased because I'm a mourning person.
And it may be true, but there's a situation.
Secret conspiracy about mourning people.
Yeah, but if you think about it, Andrew,
there is a situation where you're getting light perfectly well
and then all of a sudden they delayed by one hour
because and then even though it's the summer your buddy now if you're still not adjusting think oh wait what happened
what kind of happened well i'm glad you're bringing this up because i always thought you know what's the
big deal one hour right one hour shift you know spring forward fall back just one hour actually but the
but this goes back to the beginning of our discussion it's not just one hour right because it's one hour
across that one day. But there's this cumulative effect on the clock and these three elements of your
tripartite model, right? The homeostatic sleep and the light direct effects on mood. And when it's so
close, it's sometimes hard to figure out how to adjust it perfectly because, you know, we're already
sleep deprived in our society. And then you shift it by, you know, so it just, it all accumulates
and it has no benefit. Well, you work at a major government organization, National Institute of Mental
health, why don't we campaign for...
Honestly, I have no idea.
I mean, it makes no sense...
No, I'm saying, why don't we go campaign?
Yeah, I would love to.
I mean, it makes no sense to have the summer light goes up at 9 p.m.
The light goes down where I live in Baltimore at 9 p.m.
And then all of a sudden, when you really want to see the light longer in the day,
you now shift the other way, and now it goes, or if you're not at 6 p.m.
Why do you do these drastic changes?
Well, let it blend across the whole season.
You know, yes, later earlier at night, but it's at least consistent.
It goes in a very consistent manner.
I just don't understand why they do this.
It makes no sense.
Well, I think that the reason they do it is because they don't understand the biology.
Because one hour seems trivial unless you understand the repercussions of that one hour shift.
Because what's also clear now, based on what you're saying, is that that one hour shift is taking you out of alignment with the natural light dark cycle in exactly.
Exactly the wrong direction.
It's pushing people to get even later.
In the summer, when light is going to push you later anyway, it doesn't make sense.
You put it beautifully.
I just rambled.
No, no, you made it clear.
I mean, it's like literally it made people who are having problem, having an advanced sleep rhythm because they are delayed.
Now you give them this hour to make them even more delayed.
You push them even later in the day-night cycle.
It just doesn't make sense at all.
I think 2022 should be the year that we abolish daylight savings.
That would be the day for me, honestly.
Well, also if it has a positive effect on what is essentially an epidemic of mental health issues
and other issues related to improper interactions with light, that I think is a well-worth while cause.
And we can explore.
So for once, we're going to fight with some, with another group.
A common battle as opposed to with one another.
I mean, the circadian people, honestly, to give them credit,
have been trying for years to abolish daylight saving.
Yeah, the problem is they all go to sleep at 9 p.m.
and wake up at 4 a.m.
So we never see them.
That's right.
No, the circadian community has done an amazing job of figuring out what we need.
Right.
And then the challenge, of course, is making sure that people get what they need.
Right.
And making sure that at a societal level, we're not vaulting ourselves into the wrong.
The biggest problem is that the late waking people, they think that really, and I'm going to try to put it in a better way now, they think, oh, because you're a morning person, you want to see the sun early, so you want me to suffer it dropping late.
But that's not the case, because what happens is when they shift it back after the daylight saving, now they're going to make you suffer really badly because now it's going to be earlier.
Right, in the fall.
In the fall, when there's not enough life.
If they keep it the same way.
So try to convince them that actually this at the end cause it more trouble when you need the light for your late schedule in the fall when they shift it back.
Then they say keep it daylight saving all the time.
And that has been proven that is very bad.
Like people have done studies that literally two areas close to each others and areas that were the whole year on daylight saving has much more problems.
even in cancer rates, in depression.
So you don't want to do that.
So that's what trying to convince people
that you need to prevent that switch
and you don't need daylight saving at all.
That's where the problem happens.
Interesting.
I had not thought about that,
but yes, you late risers in the fall
when you fall back, as they say,
spring forward, fall back, you dial back the clock,
it's really compounding the problem
that already exists.
And it's strong.
really nice if you keep it consistent. In the spring, you get the long, you know, when you get
the equinox and then the day start going up and then even in the summer start going down, and
then the fall you get the other equinox and go back. So it's very symmetrical, right? It goes into
short day, longer, long, longer than short day again. But now you're getting these bumps in both
sides of the spring and fall. Why would you do that? Something that is beautifully symmetrical,
beautifully smooth. You're putting bumps into it.
Well, and we, not just beautiful because it's there, but evolved.
I mean, essentially this is the system we evolved for...
This is the seasonality is the most...
Even apart from the exact equator, every part of the earth have seasonality.
I want to briefly touch on something which is individual and genetic variation in sensitivity to light.
So not chronotype, but first of all, a very basic question.
do people with light eyes, light colored eyes, are they more sensitive to light than people
with darker pigmented eyes?
I mean, honestly, it makes sense there will be more because if you think of my dark pupil,
it's blocking more light.
So if you have light pupil, yes, for vision, it may not be very obvious, but for something
that is measuring the amount of light, you're getting more light than me.
So you probably need less light to be effective as somebody who's darker.
And that maybe could explain why sometimes lighter people say,
I don't want to go into very bright conditions because it's really bright.
Yeah, I can't even be at a cafe with one of these reflective tables, like a metal table,
unless I have very dark sunglasses on it.
So bright, it's painful for me.
Whereas some people like you, we've sat outside and had meals and you're like, fine.
I assumed it was kind of Jordanian toughness versus, you know, versus, you know.
It's really the pupil blocks more light.
So I think it is possible that it's as simple as the pupil blocking more light can have sensitivity.
But your question also goes deeper.
Are there more sensitivity differences?
And my understanding would be, I would think that it may be depends on how effective your cells are in responding to light, how healthy your IPRGCs are.
But there's not many studies to show that.
What is really clear that is happening is that patients with bipolar, they seem to have different sensitivities to light.
So it seems that at least people who have psychological changes, they may have differences to the sensitivity of light.
So are those differences in a particular direction?
I don't remember the exact way.
We'll have to. We can look it out.
Yeah.
Yeah.
Yeah.
You know, and people have heard me say this ad nauseum to the point where they,
actually roll their eyes, but you know, these are the only two pieces of brain, you know,
I'm pointing to my eyes, folks, that are outside the cranial vault.
They are two pieces of brain that it basically inform the brain about whether or not to be
alert or asleep.
Absolutely.
But you can imagine that those two little pieces of brain that we call eyes would have genetic
variations.
Of course, eye color is genetically modular, is that determined?
That there would be genetic variations based on whether or not your ancestry evolved near
the equator or further from the equator.
Right. I mean, you see more blue eyes in Scandinavia than you do it.
I mean, it's the lack of light that said you need less inhibition because there's not enough light, right?
So that's the idea of the change in color.
So, yeah, I totally agree with you.
I mean, I think this is an area that will be studied later and will be empirically determined.
The problem we have in this field right now, which I think is the biggest problem, is we don't have a way to measure the IPRGC sensitive.
in humans.
So we still, like, it's easy to measure your rot cone function if you go to an optometrist.
They measure all the details, right?
Contrast detection.
You look at the chart, you look at the Snellan chart, you look at the letters of the DMV.
But for the non-subconscious, we still don't have a good measuring systems to figure out
what is Andrews' sensitivity, what is Samar's sensitivity, what is this person's sensitivity.
And I think we're starting to work on something like that to hopefully develop these techniques.
but till we develop them, it's going to be very hard to figure out if there is a sensitivity difference,
how do they relate on men and women, you know, dark and light and all that, you know, normal versus
psychologically and effect and stuff like that. Fascinating. And every time you talk, I learned so much,
it's like in the best way, the best sense of the term, it's a waterfall of knowledge. As a final
question, I have a question about sensitivity of a whole other kind. And that's the sensitivity to
spicy food. Now, the reason I'm asking this question, what seemingly out of the blue, is that I made
the mistake once of having Samark cook for me. And I said, not too spicy. And he said, okay, not too
spicy. Yeah, she said, okay, not too spicy. And it almost killed me. Like, it was like two or three days.
So you know a lot about biology outside the visual system, light, et cetera.
You've been around a while.
Are there known genetic or inherited of any kind sensitivities to spicy food to things like red peppers and capsation?
Because what you call mild, my friend, almost put me into the hospital.
I think this is similar to you swimming in the ocean and I need to get developed.
Okay, true, true.
I like cold water swims and say there's not a fan.
That's going to change.
It's adaptable.
That's going to change.
That's my belief.
Before I met Rishi, I was like you.
And once I started eating a lot of spicy food, I lost touch of how spicy food is.
So I nearly killed you, Andrew.
And I apologize.
I forgive you.
So basically what you're saying is that marriage toughened you out.
Toughened me out.
Exactly.
Maybe that's the solution.
That's what you need.
Samer, this has been an amazing march through the importance of light,
not just for regulating sleep and wakefulness, but also for food timing, the interactions with mood,
the interactions with exercise. I'm certain that people are going to start thinking about how to
change their relationship with light as a way to anchor everything that they do and that's
important to their health. And I just, on behalf of all of them and just directly from me as your
friend and as a colleague for many years now, I just want to say thank you for the incredible work
you're doing and for sharing it with us.
Thank you so much.
And actually now thinking about all of this and you said, I should write a book,
I should write a book and call it the Tripart Eight model.
I think that would put all these components together would be very interesting to do at some
point.
You should write a book.
They'll probably try and change the title to like food, mood, and you, you know,
or something because, but you can put in Little Print on the Tripart model or whatever.
But regardless of what it's called, you absolutely,
should write a book. And so if you'd like Samar to write a book or if you'd like to learn more about
them, let's talk a little bit about where people can find you. Your laboratories at the National
Institutes of Mental Health, his head of the chronobiology unit, all these things as I've mentioned
earlier. But you are active on Twitter and Instagram. Right. So what is your Twitter handle?
It's at Samer Hattaar. And we will provide a link for that in the show notes.
Sorry. Yes, at the Twitter at Samer Hatta. And I think the same for Instagram. Yeah. I
And Sammer has been coaxed on Instagram, so he does post from time to time,
mostly pictures of food that is incredibly spicy, but also information about chronobiology.
He comes on for an Instagram live every once in a while with me, and so definitely give him a follow there and on Twitter.
And I'm sure that he'll be happy to answer questions and entertain any and all discussions about chronobiology.
Absolutely.
And light.
Yeah.
Great.
Thank you, Samir.
Awesome.
Thank you, Andrew.
Thank you for joining me for my conversation with Dr. Sammer Hattar.
I hope you found it as interesting and informative as I did.
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