creatine (generic name)
a nutraceutical product - treats Adjunct in surgery, Dialysis, Depression, Multiple sclerosis, Apnea, GAMT deficiency, Bone density, Spinal cor...
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Top Learning Centers(Recursos en Español)
Alternate TitleMethylguanidine-acetic acid
CategoryHerbs & Supplements
Athletic series creatine, beta-GPA, Challenge Creatine Monohydrate, Cr, CreapureTM creatine monohydrate powder, Creatine Booster®, creatine citrate, creatine ethyl ester, Creatine Monohydrate Powder, creatine phosphate, Creatine Powder Drink Mix, Creatine Xtreme Punch®, Creatine Xtreme Lemonade®, creatinine, Creavescent®, cyclocreatine, Hardcore Formula Creatine Powder®, HPCE Pure Creatine Monohydrate®, methyl guanidine-acetic acid, methylguanidine-acetic acid, N-amidinosarcosine, N-(aminoiminomethyl)-N methyl glycine, Neoton®, Performance Enhancer Creatine Fuel®, PhosphagenTM, Phosphagen Pure Creatine Monohydrate Power Creatine®, Runners Advantage creatine serum, Total Creatine Transport®.
Creatine is naturally synthesized in the human body from amino acids primarily in the kidney and liver and transported in the blood for use by muscles. Approximately 95% of the body's total creatine content is located in skeletal muscle.
Creatine was discovered in the 1800s as an organic constituent of meat. In the 1970s, Soviet scientists reported that oral creatine supplements may improve athletic performance during brief, intense activities such as sprints. Creatine gained popularity in the 1990s as a "natural" way to enhance athletic performance and build lean body mass. It was reported that skeletal muscle total creatine content increases with oral creatine supplementation, although response is variable. Factors that may account for this variation are carbohydrate intake, physical activity, training status, and muscle fiber type. The finding that carbohydrates enhance muscle creatine uptake increased the market for creatine multi-ingredient sports drinks.
Use of creatine is particularly popular among adolescent athletes, who are reported to take doses that are not consistent with scientific evidence, and to frequently exceed recommended loading and maintenance doses.
Published reports suggest that approximately 25% of professional baseball players and up to 50% of professional football players consume creatine supplements. According to a survey of high school athletes, creatine use is common among football players, wrestlers, hockey players, gymnasts, and lacrosse players. In 1998, the creatine market in the United States was estimated at $200 million. In 2000, the National Collegiate Athletic Association (NCAA) banned colleges from distributing creatine to their players.
Creatinine excreted in urine is derived from creatine stored in muscle.
EvidenceDISCLAIMER: These uses have been tested in humans or animals. Safety and effectiveness have not always been proven. Some of these conditions are potentially serious, and should be evaluated by a qualified healthcare provider.
Enhanced muscle mass / strength:
Several high-quality studies have shown an increase in muscle mass with the use of creatine. However, some weaker studies have reported mixed results. Overall, the available evidence suggests that creatine does increase lean body mass, strength, and total work. Future studies should take into account the effect of different individual fitness levels of study subjects.
Congestive heart failure (chronic):
Patients with chronic heart failure have low levels of creatine in their hearts. Several studies report that creatine supplements may improve heart muscle strength, body weight, and endurance in patients with heart failure. Studies comparing creatine with drugs used to treat heart failure are needed before a firm recommendation can be made. Heart failure should be treated by a qualified healthcare professional.
Adjunct in surgery (coronary heart disease):
Early studies suggest a potential benefit of creatine supplements in patients undergoing coronary artery surgery. Some evidence suggests that heart muscle may recover better and more rapidly after open-heart surgery if intravenous creatinine is used during the operation. Larger, well-designed studies are needed before a strong recommendation can be made.
Apnea (of prematurity):
Early studies of creatine in animals and humans have found mixed results in patients with a breathing disorder in infants, called apnea of prematurity. Well-designed studies are needed to better understand this relationship.
Early studies examining the effect of creatine in aging suggest that creatine may increase bone density when combined with resistance training. Further studies in which creatine alone is compared with placebo are needed.
Chronic obstructive pulmonary disease:
It is unclear if creatine can help treat chronic obstructive pulmonary disease. Study results are mixed. More clinical trials are needed before a strong recommendation can be made.
Early research suggests a potential beneficial of creatine supplements in depression. Creatine may have brought on a manic switch in patients with bipolar depression. Large, well-designed studies are needed.
Early studies suggest that creatine does not lower homocysteine levels in chronic hemodialysis patients. However, these patients were also using vitamin B12 and folate. Muscle cramps are also common complications of hemodialysis. Creatine may offer some benefit for this side effect. However, studies in which creatine alone is compared with placebo are needed.
Enhanced athletic performance and endurance:
It has been suggested that creatine may help improve athletic performance or endurance by increasing time to fatigue (possibly by shortening muscle recovery periods). It has been studied in cyclists, females, high-intensity endurance athletes, rowers, runners, sprinters (general), swimmers, and the elderly. However, the results of research evaluating this claim are mixed.
Some individuals are born with a genetic disorder in which there is a deficiency of the enzyme guanidinoacetate methyltransferase (GAMT). A lack of this enzyme causes severe developmental delays and abnormal movement disorders. The condition is diagnosed by a lack of creatine in the brain. However, there is limited evidence for the effect of creatine supplementation in this disorder. High-quality studies are needed.
Early studies did not find a benefit of creatine in the treatment of high cholesterol. More studies are needed before a clear conclusion can be drawn.
There is not enough scientific information to make a firm recommendation about the use of creatine in Huntington's disease. High-quality studies are needed to clarify this relationship.
Hyperornithinemia (high levels of ornithine in the blood):
Ornithine is normally formed in the liver. Some individuals are born with a genetic disorder that prevents them from appropriately breaking down ornithine, which causes blood levels to become too high. High amounts of ornithine may lead to blindness, muscle weakness, and reduced storage of creatine in muscles and the brain. Although there is only limited research in this area, early evidence suggests that long-term, daily creatine supplements may help replace missing creatine and slow vision loss.
Ischemic heart disease:
Early high-quality studies suggest a potential benefit of creatine in people with ischemic heart disease. More clinical trials are needed before a firm recommendation can be made.
In McArdle's disease, there is a deficiency of energy compounds stored in the muscles. This leads to muscle fatigue, exercise intolerance, and pain when exercising. Creatine has been proposed as a possible therapy for this condition. However, research is limited, and the results of existing studies are mixed. Therefore, it remains unclear if creatine offers any benefits to patients with McArdle's disease.
Early studies show that creatine may improve cognition in certain populations, such as vegetarians and the elderly. Further research is required before recommendations can be made.
Early study suggests that creatine supplementation does not improve work production in people with multiple sclerosis. However, large, well designed studies are required before a strong recommendation can be made.
Creatine loss is suspected to cause muscle weakness and breakdown in patients with Duchenne muscular dystrophy. Studies with creatine have found mixed results for this condition. Further research is needed before a strong recommendation can be made.
Myocardial infarction (heart attack):
There is early evidence that intravenous creatine after a heart attack may be beneficial to heart muscle function and may prevent irregular heart rhythms. Further study is needed before a recommendation can be made in this area.
It has been reported that the use of creatine phosphate may have a favorable effect on mental deterioration in "cardio-cerebral syndrome" following heart attacks in the elderly. More research is needed.
Neuromuscular disorders (general, mitochondrial disorders):
Numerous studies suggest that creatine may help treat various neuromuscular diseases and may delay the onset of symptoms when used with standard treatment. However, creatine ingestion does not appear to have a significant effect on muscle creatine stores or high-intensity exercise capacity in individuals with multiple sclerosis and supplementation does not seem to help people with tetraplegia.
Although early studies were encouraging, recent research reports no beneficial effects on survival or disease progression. Additional studies are needed to provide clearer answers.
Spinal cord injury:
It is unclear if creatine is helpful in patients with spinal cord injuries. Results from early studies have been mixed. Further studies are required before a firm recommendation can be made.
Early studies suggest that creatine has no effect on strength or body composition in people undergoing soft tissue surgery. Creatine supplements are likely ineffective in this condition, and cannot be recommended without evidence from additional studies.
TraditionWARNING: DISCLAIMER: The below uses are based on tradition, scientific theories, or limited research. They often have not been thoroughly tested in humans, and safety and effectiveness have not always been proven. Some of these conditions are potentially serious, and should be evaluated by a qualified healthcare provider. There may be other proposed uses that are not listed below.
AGAT deficiency, Alzheimer's disease, anti-arrhythmic, anticonvulsant, anti-inflammatory, antioxidant, attention deficit hyperactivity disorder, bipolar disorder, brain damage, breast cancer, cervical cancer, circadian clock acceleration, colon cancer, diabetes, diabetic complications, disuse muscle atrophy, fibromyalgia, growth, herpes, hyperhomocysteinemia (an abnormally large level of homocysteine in the blood), mitochondrial diseases, mood disorder, neuroprotection, nutritional supplement, ophthalmologic disorders (gyrate atrophy), osteoarthritis, Parkinson's disease, rheumatoid arthritis, seizures (caused by lack of oxygen to the brain), sexual dysfunction, wasting of brain regions.
Adults (18 years and older)
A wide range of dosing has been used or studied by mouth. 400 milligrams per kilogram of body weight or up to 25 grams per day has been studied for multiple conditions. Experts often recommend maintaining good hydration during creatine use.
To increase anaerobic work capacity, studies have used a dose of 5 grams four times per day for 5 days. For enhanced athletic strength and performance, studies have used a dose of 20 grams per day for 4-7 days. Daily maintenance doses of 2-5 grams or 0.3 milligrams per kilogram of body weight have been used.
Numerous dosing regimens for intravenous or intramuscular administration have been used in studies in humans. Intravenous dosing should only be done under strict medical supervision.
Children (younger than 18 years)
Dosing in children should be under medical supervision because of potential side effects. A daily dose of 5 grams has been used in children with muscular dystrophy, and a range of doses (400 milligrams to 2 grams per kilogram of body weight) have been used in children with GAMT deficiency. A dose of 100 milligrams per kilogram body weight has been used for one week to treat motor sensory neuropathy in children.
SafetyDISCLAIMER: Many complementary techniques are practiced by healthcare professionals with formal training, in accordance with the standards of national organizations. However, this is not universally the case, and adverse effects are possible. Due to limited research, in some cases only limited safety information is available.
Creatine has been associated with asthmatic symptoms. People should avoid creatine if they have known allergies to this supplement. Signs of allergy may include rash, itching, or shortness of breath.
Side Effects and Warnings
There is limited systematic study of the safety, pharmacology, or toxicology of creatine. Individuals using creatine, including athletes, should be monitored by a healthcare professional. Users are advised to inform their physicians or other qualified healthcare professionals.
Some individuals may experience gastrointestinal symptoms, including loss of appetite, stomach discomfort, diarrhea, or nausea.
Creatine may cause muscle cramps or muscle breakdown, leading to muscle tears or discomfort. Strains and sprains have been reported due to enthusiastic increases in workout regimens once starting creatine. Weight gain and increased body mass may occur. Heat intolerance, fever, dehydration, reduced blood volume, or electrolyte imbalances (and resulting seizures) may occur.
There is less concern today than there used to be about possible kidney damage from creatine, although there are reports of kidney damage, such as interstitial nephritis. Patients with kidney disease should avoid use of this supplement. Similarly, liver function may be altered, and caution is advised in those with underlying liver disease.
In theory, creatine may alter the activities of insulin. Caution is advised in patients with diabetes or hypoglycemia, and in those taking drugs, herbs, or supplements that affect blood sugar. Serum glucose levels may need to be monitored by a healthcare professional, and medication adjustments may be necessary.
Long-term administration of large quantities of creatine is reported to increase the production of formaldehyde, which may potentially cause serious unwanted side effects.
Creatine may increase the risk of compartment syndrome of the lower leg, a condition characterized by pain in the lower leg associated with inflammation and ischemia (diminished blood flow), which is a potential surgical emergency.
Reports of other side effects include thirst, mild headache, anxiety, irritability, aggression, nervousness, sleepiness, depression, abnormal heart rhythm, fainting or dizziness, blood clots in the legs (called deep vein thrombosis), seizure, or swollen limbs.
Pregnancy and Breastfeeding
Creatine cannot be recommended during pregnancy or breastfeeding due to a lack of scientific information.
Pasteurized cow's milk appears to contain higher levels of creatine than human milk. The clinical significance of this is not clear.