Sleep Stages and Circadian Rhythms Transcript PDF

Summary

This document discusses sleep stages and circadian rhythms. It details the four main stages of sleep, including non-REM (N1, N2, and N3) and REM sleep. The document also examines the role of circadian rhythms in regulating sleep and wake cycles.

Full Transcript

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Sleep Stages and Circadian Rhythms
Even though you're not conscious during sleep, your brain is deceptively active. It goes
through multiple cycles with distinct brain patterns, and it's very important to your
ability to perform normal functions when you're awake.

You have four main stages of sleep, which occur in approximately 90-minute cycles
during a normal night of sleep. The !rst three stages are all considered non-rapid eye
movement, or non-REM, which I'm going to abbreviate is N1, N2 and N3. So N1 is the
stage between sleep and wakefulness. This is when your brain starts producing theta
waves. You might experience strange sensations known as hypnagogic hallucinations,
which is kind of a fun name. But these can include hearing or seeing things that aren't
there, such as seeing a "ash of light, or a lot of people hear someone calling their
name, or a phone ring, or doorbell, or something like that.

Or if you've been doing something really repetitive just before bed, then that can recur
in your hypnagogic state. For example, if you've been on a boat all day, you may still
feel like you're on water when you drift o# to sleep, even if you're on dry land. Or
something, that's actually called the Tetris e#ect, if you've been playing Tetris for a long
time right before bed, then you might experience visual images of blocks or something
all moving in the same direction, kind of like the blocks in the game. But another
common feeling during this stage is a feeling of falling, and that leads to what's called
hypnic jerks, or those muscle twitches you sometimes experience as you fall asleep. So
that's N1, our !rst, lightest stage of sleep.

And then we move into N2, which is a slightly deeper stage of sleep. Although it's still
pretty easy to wake up someone in N1, people in N2 are harder to awaken. We see
more theta waves, as well as something called sleep spindles and K-complexes. So
sleep spindles are these bursts of rapid rhythmic brain activity. And there's a lot we
don't know about the purpose of each sleep stage and the function of these brain
waves, but some researchers think that sleep spindles help inhibit certain cognitive
processes or perceptions, so that we maintain a tranquil state during sleep. For
example, sleep spindles in some parts of the brain are associated with people's ability
to sleep through loud noises.

And K-complexes are kind of similar, but there a di#erent type of brain activity that's

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also thought to suppress cortical arousal and keep you asleep basically. They're also
thought to help with sleep-based memory consolidation, which is the theory that some
memories are transferred into your long-term memory during sleep. And what's cool is
that even though K-complexes do occur naturally, you can also make them occur by
gently touching someone who's in this stage of sleep, just brushing against their skin,
and that'll induce some K-complex activity. So what your brain does is sort of assess
that the touch on the skin is nonthreatening, and it suppresses the processing of that
stimuli to help keep you asleep.

So beyond N2, we have N3. So this is our last non-REM stage. And N3 is also called
slow-wave sleep, because as you might guess, brainwaves are very slow. And these are
called delta waves, and they have a range of about 0.5 to 2 hertz. So you get basically a
half to two oscillations of these brainwaves per second. And when you're in N3 sleep,
you are very much dead to the world and really di$cult to wake up. And if you walk or
talk in your sleep, this is the stage where those things happen.

So the last stage we need to talk about is REM sleep. REM stands for rapid eye
movement, and that's because this stage is when your eyes move really rapidly
beneath your lids. And also, most of your other muscles are paralyzed. So this paralysis
might actually be a good thing because most dreaming occurs during REM sleep. So if
you weren't paralyzed, your muscles might act out whatever you were dreaming about,
which could be unsafe for you and anyone sleeping near you, depending on what type
of dreams you have. REM sleep is sometimes called paradoxical sleep because your
brain actually seems very active and awake, but your body is prevented from doing
anything. It's kind of crazy.

Now, in a normal night of uninterrupted sleep, you cycle through these stages about
four or !ve times each, and it takes about 90 minutes to go through a complete cycle.
But the order, it doesn't just go, 1, 2, 3, REM. The order within a cycle tends to go from
N1 to N2 to N3, and then back to N2 before entering REM sleep, and then back to N1,
and then it starts all over again. And how long each stage lasts depends partially on
how old you are and partially on how long you've been asleep. You tend to do a lot
more slow-wave sleep or N3 sleep in the !rst few hours and then more REM sleep right
before you wake up. So that's why, if you really want to try to remember your dreams,
you can set your alarm to go o# a little earlier than usual, like 15 minutes. And so you'll
get jerked out of REM sleep and are more likely to remember what you dreamed.

You know that you get tired probably around the same time every afternoon or
evening, and you might wonder how your body knows when to fall asleep or why a lot

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of people get tired in the afternoon. The answer lies in something called our circadian
rhythms. And just like our sleep has cyclical stages, so does our wakefulness, and our
transition from wakefulness to sleeping. Circadian rhythms are our regular bodily
rhythms across a 24-hour period, which is also called our internal biological clock. And
these cycles control our body temperature, which rises during the day and then takes a
brief dip in the early afternoon, and then goes up again in the evening, and then falls
during the nighttime, so we control our body temperature and our sleep cycle, all sorts
of things.

Daylight is a big cue for circadian rhythms and even arti!cial light can a#ect your
circadian clock. So that's why when you travel somewhere with a big time di#erence,
airplanes will usually adjust the lights in accordance with the time zone of your
destination. They're trying to help you reset your biological clock. But resetting that
clock can take time, which is when you experience jet lag. Your biological clock says it's
time to go to sleep, but your new time zone says it's time to wake up. And so that
transition can be a little taxing if you're traveling. But these circadian rhythms also
change as you age, which is why a lot of younger people tend to be night owls, but as
they age, older people tend to wake up and go to bed early.

Your circadian rhythms can also prevent you from sleeping in when you want to
sometimes. So maybe you get up every day at 6:00 a.m. Monday through Friday, and
then Saturday, you can !nally sleep in, but you'll still wake up around 6:00 a.m. And
that's because your internal biological clock has adjusted to you waking up at that time,
so it regulates your metabolism, body temperature, sleep cycles, so that you wake up
at the same time.

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