Source: The Conversation – UK

The clock reads 2:13am. You are exhausted. Your eyes ache, your body feels heavy and the alarm is already beginning to loom over the night, yet your brain refuses to let go. Instead, thoughts arrive in waves. Did you send that email? What if you forgot something important? Perhaps now is also the perfect time for your mind to replay a conversation from 2017 with forensic precision.
Many people recognise this frustrating state of being “wired but tired” – the paradoxical feeling of being physically exhausted but mentally unable to switch off. Surely tiredness should produce sleep automatically, but the brain does not simply fall asleep because the body is fatigued. In fact, under stress, exhaustion and sleeplessness often occur together. Part of the reason lies in the biology of survival.
The human stress response evolved to deal with immediate physical threats. For most of human history, danger tended to be extreme and short-lived – a predator nearby, an environmental hazard or conflict with another human group. In those moments, the brain’s priority was not rest but survival.
When the brain detects threat, a region called the amygdala initiates the body’s classic fight-or-flight response. Stress hormones including adrenaline and cortisol are released. Heart rate increases, breathing quickens and attention sharpens. Energy is diverted away from long-term maintenance tasks towards immediate action.
This response is extraordinarily useful – if you are trying to escape a sabre-toothed tiger. It is much less useful when the “threat” is an overflowing inbox or mounting financial pressure.
Modern stressors are psychologically powerful but biologically peculiar. Unlike predators, they rarely resolve quickly. Emails continue arriving. Work follows us home through smartphones and laptops. Social media creates a constant stream of social comparison and low-level vigilance. Even leisure time has become strangely porous, interrupted by notifications, messages and often the expectation of permanent availability.
The result is that the parts of the brain responsible for keeping us alert can remain partially activated for long periods. This matters because sleep is not simply the absence of wakefulness. Falling asleep requires the brain to actively reduce alertness. A network of arousal centres in the brainstem, hypothalamus and forebrain normally keeps us awake and attentive during the day. To transition into sleep, these systems must quieten down.
Under long-term stress, however, the brain can become stuck in a state of hyperarousal. Even when the body is exhausted, the brain continues scanning, anticipating and rehearsing. From an evolutionary perspective, this makes a certain kind of sense. If the environment feels threatening or uncertain, being fully offline may not seem safe.
One reason this state feels so unpleasant is that physical exhaustion and mental arousal are controlled by overlapping but partly separate systems. Your muscles may desperately need rest while your brain continues producing stress-driven alertness. The result is the strange mismatch many people know well, a tired body and racing thoughts.
Cortisol also plays an important role. Under normal circumstances, cortisol follows a daily rhythm. Levels rise in the morning to promote wakefulness and gradually decline towards night. Chronic stress can disrupt this pattern, leaving the body activated later into the evening.
Some studies suggest that people with insomnia show elevated metabolic and neurological activity even while trying to sleep – almost as though the brain is idling too high. Modern life may amplify this problem in ways our nervous systems did not evolve to handle.

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Why the modern world makes it worse
Artificial light suppresses melatonin, the hormone that helps regulate sleep timing. Smartphones provide endless cognitive stimulation at exactly the point the brain should be winding down. Doomscrolling combines emotional arousal, uncertainty and novelty – three things human attention systems find almost impossible to ignore.
Then there is rumination: the repetitive mental replaying of worries and problems. Humans possess a remarkable ability to mentally simulate the future and revisit the past. This capacity helps us plan, learn and avoid danger. But it also means the brain can continue generating stress responses long after any immediate threat has disappeared.
The cruel irony is that the more exhausted we become, the harder emotional regulation often gets. Sleep deprivation itself increases amygdala reactivity while reducing the moderating influence of the prefrontal cortex – the part of the brain involved in rational control and perspective.
A tired brain becomes more emotionally reactive, which can make worries feel even louder at night. In other words, being overtired can make the brain less capable of calming itself down.
This helps explain why “just relax” is usually terrible advice for insomniacs. Hyperarousal is not simply a failure of willpower. It is a deeply biological state shaped by stress systems, hormones, attention networks and learned patterns of vigilance. That does not mean the situation is hopeless.
Sleep researchers often emphasise that rest and safety are closely linked in the brain. Consistent routines, reduced evening stimulation, exercise, daylight exposure and limiting late-night screen use can all help reinforce the signals that night is a time for recovery rather than alertness. Cognitive behavioural therapy for insomnia has also proved remarkably effective, partly because it targets the cycle of anxiety and sleeplessness itself.
Perhaps the most important point is broader. Feeling “wired but tired” is not evidence that your body has failed to rest properly. Often it is evidence that the brain has become too good at staying alert in a digital world that never really stops.
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Michelle Spear does not work for, consult, own shares in or receive funding from any company or organisation that would benefit from this article, and has disclosed no relevant affiliations beyond their academic appointment.
Original source: https://analysis1.mil-osi.com/2026/07/08/how-can-you-be-tired-yet-wired-blame-your-stone-age-brain/
