The invention of the electroencephalograph allowed scientists to study sleep in ways that were not previously possible. During the 1950s, a gradate student named Eugene Aserinsky used this tool to discover what is known today as REM sleep. Further studies of human sleep have demonstrated that sleep progresses through a series of stages in which different brain wave patterns are displayed.
There are two main types of sleep:
- Non-Rapid Eye Movement (NREM) Sleep (also known as quiet sleep
- Rapid Eye Movement (REM) Sleep (also known as active sleep or paradoxical sleep
The Beginnings of Sleep
During the earliest phases of sleep, you are still relatively awake and alert. The brain produces what are known as beta waves, which are small and fast. As the brain begins to relax and slow down, slower waves known as alpha waves are produced. During this time when you are not quite asleep, you may experience strange and extremely vivid sensations known as hypnagogic hallucinations. Common examples of this phenomenon include feeling like you are falling or hearing someone call your name.
Another very common event during this period is known as a myoclonic jerk. If you have ever startled suddenly for seemingly no reason at all, then you have experienced this odd phenomenon. While it might seem unusual, these myoclonic jerks are actually quite common.
Previously, experts divided sleep into five different stages. Fairly recently, however, stages 3 and 4 were combined so that there are now four stages of sleep.
Stage 1 is the beginning of the sleep cycle, and is a relatively light stage of sleep. Stage 1 can be considered a transition period between wakefulness and sleep. In Stage 1, the brain produces high amplitude theta waves, which are very slow brain waves. This period of sleep lasts only a brief time (around 5-10 minutes). If you awaken someone during this stage, they might report that they weren't really asleep.
Stage 2 is the second stage of sleep and lasts for approximately 20 minutes. The brain begins to produce bursts of rapid, rhythmic brain wave activity known as sleep spindles. Body temperature starts to decrease and heart rate begins to slow.
This stage was previously divided into stages three and four. Deep, slow brain waves known as delta waves begin to emerge during stage 3 sleep. This stage is sometimes referred to as delta sleep because of the slow brain waves known as delta waves that occur during this time. During this stage, people become less responsive and noises and activity in the environment may fail to generate a response. It also acts as a transitional period between light sleep and a very deep sleep. Bed-wetting and sleepwalking are most likely to occur at the end of this stage of sleep.
Most dreaming occurs during the fourth stage of sleep, known as rapid eye movement (REM) sleep. REM sleep is characterized by eye movement, increased respiration rate and increased brain activity. REM sleep is also referred to as paradoxical sleep because while the brain and other body systems become more active, muscles become more relaxed. Dreaming occurs due because of increased brain activity, but voluntary muscles become paralyzed.
The Sequence of Sleep Stages
It is important to realize, however, that sleep does not progress through these stages in sequence. Sleep begins in stage 1 and progresses into stages 2, and 3. After stage 3 sleep, stage 2 sleep is repeated repeated before entering REM sleep. Once REM sleep is over, the body usually returns to stage 2 sleep. Sleep cycles through these stages approximately four or five times throughout the night.
On average, we enter the REM stage approximately 90 minutes after falling asleep. The first cycle of REM sleep might last only a short amount of time, but each cycle becomes longer. REM sleep can last up to an hour as sleep progresses.