After our muscles, the brain is among the highest consumers of energy in the body; and while muscles can rest, the brain runs 24/7. Although the brain takes up only 2% of our body weight, it uses 20% of our calorie intake. When we ask our brain to think and process more, or function under suboptimal conditions, we can see the same performance and recovery issues as muscles when proper nutrients aren’t provided.
In areas where the brain’s performance involves a heavy cognitive load, such as driving a racecar or competing in esports, or in situations where lack of sleep or oxygen occurs, planning to support the brain plays a crucial role in maintaining its optimal function.
Adequate creatine stores in the brain allow for optimal energy production to support brain health and cognitive performance, similar to creatine’s long-studied positive impact on muscle energy and physical performance.* As we age, creatine stores tend to decrease in our muscles and our brains, likely due to disease or decreased physical activity.
Just like we see the benefits of creatine supplementation in skeletal muscle, we are starting to see the potential for similar impacts on the brain.* When brain creatine levels in healthy elderly participants were compared to a younger cohort, they were similar, which has led to new areas of research to better understand what this correlation means.2
Although the link between creatine and physical performance has been studied for decades, creatine’s link to the brain is only an emerging area of investigation. Studies show that supplemental creatine monohydrate over 2-4 weeks increases the concentration of creatine in the brain by 5-15%.3,4
The brain is more selective about what chemicals and nutrients it allows in than are the muscles, so we can’t assume that existing creatine loading protocols can be applied to supporting cognitive performance. The emerging theory is that larger doses will be needed over a longer term to promote optimal creatine levels in the brain.5
Although studying creatine’s impact on the brain is more complex than muscle-based studies, one group has made it easier to tease out significant benefits – vegans/vegetarians. As noted earlier, creatine isn’t present in diets that eliminate animal products, leading this group to have a smaller creatine pool than the average population.
Healthy vegan and vegetarian participants that supplemented with creatine performed better than placebo groups on a series of cognitive challenges, including word recall, repeating numbers backward, pattern recognition, and reaction time.*6-8
Although research has shown that cognitive training by itself can lead to higher brain creatine levels absent supplementation,9 creatine supplementation has shown positive benefits as well.* For example, creatine can decrease the impact of fatigue when performing complex tasks after sleep deprivation.* It has also been shown to improve throwing accuracy in rugby athletes.*10-12
When participants were deprived of oxygen to the brain, mimicking emergency conditions, individuals who had supplemented with creatine for one week restored cognitive performance more readily than the placebo group,* indicating that creatine plays an important role in providing energy to brain cells when usual energy sources are jeopardized.13
When examining the impact of creatine supplementation on brain fog, students who supplemented with creatine for five days prior to a math test were found to have more oxygen in brain cells.* This is likely due to an increase in oxygen uptake from the blood and mitochondria efficiency resulting in a decreased need for oxygen.14
Changes in the brain after injury include membrane disruption, mitochondrial damage, and increased oxidative stress – all things creatine is known to support elsewhere in the body.*
While it is too early in the research to make any definitive connection between creatine supplementation and brain function, further investigating the potential remains a priority in the research community.
Creatine supplementation probably would provide the most benefit for individuals with suboptimal levels.15 Further research is needed to solidify dosing strategies and to control for variables, including age, diet, activity, and genetic makeup. It will likely continue to be an area of intense interest across the medical, cognitive, and sports performance communities.
1 Andres R, Ducray A, Schlattner U, et al. Functions and effects of creatine in the central nervous system. Brain Res Bull 2008;76(4):329-343.
2 Solis M, Artioli G, Otaduy M, et al. Effect of age, diet, and tissue type on PCr response to creatine supplementation. J Appl Physiol 2017;123(2):407-414.
3 Dechent P, Pouwels P, Wilken B, et al. Increase of total creatine in human brain after oral supplementation of creatine-monohydrate. Am J Physiol 1999;277(3):R698-R704.
4 Lyoo I, Kong S, Sung S, et al. Multinuclear magnetic resonance spectroscopy of high-energy phosphate metabolites in human brain following oral supplementation of creatine-monohydrate. Psychiatry Res 2003;123(2):87-100.
5 Dolan E, Gualano B, Rawson E. Beyond muscle: the effects of creatine supplementation on brain creatine [and] cognitive processing . . . . EJSS 2019;19(1):1-14.
6 Benton D, Donohoe R. The influence of creatine supplementation on the cognitive functioning of vegetarians and omnivores. Br J Nutr 2011;105(7):1100-1105.
7 Rae C, Digney A, McEwan S, Bates T. Oral creatine monohydrate supplementation improves brain performance: a double-blind, placebo-controlled, cross-over trial. Proc Biol Sci 2003;270(1529):2147-2150.
8 Ferrier C, Alarcón G, Glover A, et al. N-Acetylaspartate and creatine levels measured by (1)H MRS relate to recognition memory. Neurology 2000;55(12):1874-1883.
9 Valenzuela M, Jones M, Wen W, et al. Memory training alters hippocampal neurochemistry in healthy elderly. Neuroreport 2003;14(10):1333-1337.
10 Cook C, Crewther B, Kilduff L, et al. Skill execution and sleep deprivation: effects of acute caffeine or creatine supplementation. A randomized placebo-controlled trial. J Int Soc Sports Nutr 2011;8:2.
11 McMorris T, Harris R, Swain J, et al. Effect of creatine supplementation and sleep deprivation, with mild exercise, on cognitive and psychomotor performance, mood state, and plasma concentrations of catecholamines and cortisol. Psychopharmacology 2006;185(1):93-103.
12 McMorris T, Harris R, Howard A, et al. Creatine supplementation, sleep deprivation, cortisol, melatonin and behavior. Physiol Behav 2007;90(1):21-28.
13 Turner C, Byblow W, Gant N. Creatine supplementation enhances corticomotor excitability and cognitive performance during oxygen deprivation. J Neurosci 2015;35(4):1773-1780.
14 Watanabe A, Kato N, Kato T. Effects of creatine on mental fatigue and cerebral hemoglobin oxygenation. Neurosci Res 2002;42(4):279-285.
15 Avgerinos K, Spyrou N, Bougioukas K, Kapogiannis D. Effects of creatine supplementation on cognitive function of healthy individuals: A systematic review of randomized controlled trials. Exp Gerontol 2018;108:166-173.