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The life and mind of Takashi Morinosuka

What happends to your body when you fall asleep?

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What happens to your body when you fall asleep? Scienceline

It’s a disorienting experience to be awakened by a phone call while curled up for a good night’s sleep. Hearing muffled fumbling for the phone followed by a groggy greeting, the caller usually asks, “Oh, were you sleeping?”

My most common answer is, “I don’t know. No. I’m not sure.” In that state of confusion, the last thing I’m capable of is analyzing the inner workings of my body to understand if I am awake or asleep. Luckily, there is a lot of science to explain what it really means to be asleep, and what happens to get us there.

There is no universally agreed-upon definition because falling asleep is not a split-second occurrence, not an abrupt switch from awake to asleep. Rather, it is a gradual progression of stages in which body and brain activity changes.

Sleep onset is “sort of a reflection of your brain switching from one way of thinking to another way of thinking,” says Scott Campbell of the Cornell Medical School Laboratory of Human Chronobiology. Besides brain activity, sleep researchers measure eye movements and muscle tension to observe a person falling asleep.

Even if you feel like you just conk out until morning, a night of sleep has a typical structure. Most people are familiar with Rapid Eye Movement, or REM, sleep. Before that dream-heavy period, though, we undergo Non-Rapid Eye Movement, or NREM, sleep, which takes up 75 percent of sleep time and is divided into four stages.

Stage 1 finds us dozing off, with our brain waves and muscle activity slowing down. You witness this very light sleep when the airplane passenger next to you suddenly jerks his leg and sends your five-dollar cocktail flying.

Some people would call that sleep but, when woken during Stage 1 and asked if they were asleep, about 80 percent of people will say they were not, according to Campbell.

In Stage 2, 60 percent of people would deny it, though Campbell says researchers agree that this is sleep.

Usually comprising about half of sleep time, Stage 2 means a calmer brain wave pattern and no eye movements. Breathing slows and body temperature drops slightly. A person in Stage 2 has lost touch with his surroundings but can easily be shaken awake.

By Stages 3 and 4, though, waking someone up probably requires an annoying alarm. Breathing slows even more into a rhythm. Blood pressure and body temperature drop again and muscles relax. These two similar stages are called “slow wave sleep,” with the slowest of all brain waves.

This is the restorative, deep sleep we crave when we’re tired. Scientists believe that much of the body’s regenerative work, like protein building and hormone release, happens at this stage. Slow wave sleep is what every mother loves to see in her child: just a peaceful, resting body.

About 90 minutes after falling asleep, REM sets in and hypes up the slow wave sleep into a state that’s very close to being awake, with brain waves of the same speed or even faster. Most but not all dreams occur in this phase.

The heart beats quickly, blood pressure rises, eyes dart around and breathing becomes rapid and shallow. The body is more or less paralyzed; arm, leg and facial muscles might twitch, but the body won’t move. REM can last from five to 30 minutes.

After REM, NREM starts again. The 90- to 110-minute cycle of these two phases repeats four to six times per night. As the night progresses, the time spent in REM increases and deep sleep decreases so that when the rooster crows, it’s almost all Stage 1, Stage 2 and REM sleep.

Hormones, chemicals and regions of the brain interact to drive the sleep cycle. The body’s biological clock, or circadian rhythm, synchronizes a person’s sleep schedule with the day/night cycle’s changing amounts of light. A tiny area of the brain, the suprachiasmatic nucleus (SCN), interprets light signals sent from the eyes through the optic nerves.

Light triggers the SCN to direct the brain’s pineal gland to release the hormone melatonin. There’s a big burst of it into the body just as we go to sleep, says Campbell, and it probably turns certain areas of the brain off and on as we transition into slumber mode.

Adenosine is another chemical thought to induce sleep. Levels increase during the day, making us sleepier the longer that we’re awake in an attempt to reach homeostasis, or the body’s preferred “steady state.” Once we fall asleep, adenosine levels drop, reducing the need for sleep and eventually prompting us to wake up.

Cortisol, known as a stress hormone, follows a reverse path. It bottoms out right before bedtime, allowing us to relax, but then increases throughout the night to encourage a bright-eyed and bushy-tailed start to the day.

Next time someone interrupts your dreams of sugar plums in lollipop land, you can tell them, “Yes, I was sleeping. I was in the REM stage with fast brain waves and rapid breathing. I still have another sleep cycle to go, so I’ll call you back.”
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Comments

  1. Spiro910's Avatar
    And this is all sugar coated, it doesn't mention anything about brain areas or tracts ;o
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