A single 14-gram dose of creatine helped preserve cognitive performance after a sleepless night. Digest
High doses of creatine have recently been shown to help preserve cognitive performance during acute sleep deprivation, but it is less clear whether a lower dose can provide similar benefits.
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A new study included 29 healthy adults aged 20 to 40 in a crossover trial. Each participant completed two separate sleepless nights in random order, receiving a single dose of 0.2 grams of creatine monohydrate per kilogram of body weight (0.2 g/kg; about 14 grams on average) on one night and a placebo on the other. Participants stayed awake from about 7 a.m. until around 4:30 a.m. the next morning. Cognitive testing was performed several times throughout the sleep-deprivation period, with creatine or placebo given after about 14 hours of wakefulness.
- The clearest benefit was on reasoning questions. Across the three overnight tests, participants scored 6.1% higher with creatine than with placebo after accounting for their starting scores. On the placebo night, reasoning performance fell by 6.8%.
- A few other measures also leaned in favor of creatine compared with placebo, but the evidence was statistically less robust. Participants scored 6.2% higher on numerical reasoning questions, answered verbal questions 12.3% faster, and had 9.2% less variation in their reaction times, while average reaction speed changed little.
- Creatine did not clearly reduce sleepiness or fatigue compared with placebo. By 4 a.m., sleepiness had risen 155% from the 6 p.m. baseline measure with creatine and 173% with placebo. Fatigue also rose in both conditions, by 148% with creatine and 115% with placebo.
- Not every measure improved with creatine: word memory, memory for number sequences, the ability to briefly hold visual information in mind, and language accuracy were not clearly better than with placebo.
Creatine supports cellular energy through the creatine kinase and phosphocreatine system, which helps regenerate ATP, the main energy molecule used by cells. Sleep deprivation is a stress condition that may strain energy reserves and make creatine uptake more relevant than it would be after a restful night, especially during demanding cognitive tasks. This could explain why creatine modestly helped preserve performance during the sleepless night, even though participants still felt increasingly sleepy and fatigued.
This was a small, one-night study in healthy young adults, so it is unclear how well the findings would apply outside this controlled setting. Still, the results suggest that creatine may help preserve some aspects of cognition during sleep loss even at 0.2 g/kg, although the effects appeared less pronounced than in earlier work from the same group using 0.35 g/kg. In this clip, I explain why I increased my creatine intake and how creatine may support brain energy during sleep loss and mid-afternoon dips.