Circadian Rhythms And Sleep Loss: What Happens In Your Brain When You Pull An All-Nighter?

Just. So. Sleepy.
Kristy Hamilton 12 Aug 2016, 20:46

The Conversation

Ever wondered what happens inside your brain when you stay awake for a day, a night and another day, before you finally go to sleep? Well, we just found out.

It has been known for many years that how sleepy we are, how well we can add up numbers, pay attention or conduct a working memory task depends on how long we have been awake and the time of day. Typically if we stay awake over a period of two days (a day, a night and then the next day) the first 16 hours or so is of wakefulness – performance is good and doesn’t change much.

But then, as we enter the “biological night time”, as indicated by a rise of the hormone melatonin, performance deteriorates rapidly and reaches a minimum at around 6-8am the following morning. On the second day, performance can get a little better (but still well below that of day one) and only returns to normal, baseline levels after a good night’s sleep.

The key characteristic of this performance timeline is that it doesn’t deteriorate linearly based on how long you’ve been awake but is instead modulated by the time of day. In fact, we know now that it isn’t actually “time of day” but “internal biological time of day” that causes the effects of sleep loss. At the behavioural level, then, brain function is determined by the combined effects of circadian rhythmicity and sleep homeostasis – the sleep pressure that builds up during wakefulness and dissipates during sleep.

Circadian rhythm

Circadian rhythmicity can be observed in many aspects of behaviour and physiology and is generated by circadian clocks in nearly every cell in the brain and body. Locally, these rhythms are generated by a feedback loop of clock proteins onto clock genes that express genetic information that is then translated into proteins. 

All these clocks – including brain clocks – are synchronised by a central director/conductor located in a brain area called the suprachiasmatic nucleus in the hypothalamus. This area of the brain also drives the rhythm of melatonin in blood and saliva.

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