Insomnia

Last updated: November 14, 2025

Insomnia

Med - 1ère année

Med - 1ère année

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Transcript

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The word insomnia comes from Latin, where the prefix “in” means “without” and “somnia” refers to “sleep”. In other words, insomnia is a sleep disorder characterized by difficulty falling asleep, staying asleep, or waking up too early, and not being able to fall back asleep. So, insomnia is not just about a bad night here or there. It’s when this sleep disturbance sticks around and affects your day-to-day life.

Each night, after long hours of preparing for exams, you fall asleep to get some well-deserved rest. But, for that to happen, there needs to be a delicate balance between two systems in the brain.

First, we have the sleep-promoting centers located in the ventrolateral preoptic nucleus and the median preoptic area. These regions release sleep-promoting substances, like GABA, serotonin, adenosine, melatonin, and prostaglandin D2.

On the flip side, we have the wake-promoting centers, also known as the arousal centers. These include the reticular activating system, the tuberomammillary nucleus, the dorsal raphe, and the locus coeruleus. These regions release stimulating substances, such as catecholamines, orexin, and histamine.

As you begin to fall asleep, the sleep-promoting centers send inhibitory signals to the arousal centers, gradually quieting brain activity and easing you into sleep.

After a good rest, the process reverses.

The arousal centers slowly reactivate and start sending inhibitory signals to the sleep centers, helping you wake up and stay alert during the day.

This push-pull system is the basis of the sleep-wake cycle, and you can think of it as a light switch. When it’s on, the arousal centers are active, keeping you awake. When it’s off, the sleep-promoting centers take over, allowing you to fall asleep.

Now, the activity of the sleep and arousal centers is controlled by two key processes. First, there's the wake-dependent sleep drive, which is mainly driven by adenosine. As we stay awake, adenosine gradually builds up in the brain. Once enough adenosine accumulates outside neurons, it activates the sleep-promoting centers, which then send inhibitory signals to the arousal centers. This helps suppress arousal centers, allowing the brain to slow down and transition to sleep.

The second process is the circadian rhythm, which is our internal biological clock controlled by the suprachiasmatic nucleus in the hypothalamus.

The circadian rhythm helps regulate the timing of sleep and wakefulness, along with things like hormone secretion, body temperature, and other physiological processes over a 24-hour cycle. The circadian rhythm can be influenced by various things, such as light exposure, melatonin levels, and social factors.

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