1. What is it and where does it come from?
Simply put, creatine monohydrate is the most popular and effective bodybuilding supplement on the market. Everyone consistently using creatine is making HUGE, AMAZING gains! There is one good reason why three out of four of the ’96 summer Olympic medallists used creatine: it works and it works well. A French scientist first discovered creatine in 1832, but it was not until 1923 that scientists discovered that over 95% of creatine is stored in muscle tissue. The first published report of creatine having bodybuilding effects was The Journal of Biological Chemistry in, get this, 1926! Although we’ve known about creatine for quite some time, the first real use of it to enhance performance was the 1992 Olympic Games in Barcelona, Spain.
So, what is creatine? Our bodies naturally make the compound, which is used to supply energy to our muscles. It is produced in the liver, pancreas, and kidneys, and is transported to the body’s muscles through the bloodstream. Once it reaches the muscles, it is converted into phosphocreatine (creatine phosphate). This high-powered metabolite is used to regenerate the muscles’ ultimate energy source, ATP (adenosine triphosphate).
Unlike steroids or drugs, creatine is 100% natural and occurs naturally in many foods; therefore, it can never be banned from any sports or international competitions (unless they banned eating meat). Many foods especially herring, salmon, tuna, and beef contain some creatine. However, the very best source of creatine by far is creatine monohydrate because it contains more creatine per weight of material than any other source. Bodybuilding.com sells only high quality 99.9% pure pharmaceutical-grade creatine monohydrate.
2. What does it do and what scientific studies give evidence to support this?
Creatine is bodybuilding’s ultimate supplement, and for good reason. For one thing, creatine can significantly increase lean muscle mass in just two weeks. It is also responsible for improving performance in high-intensity exercise, increasing energy levels, and speeding up recovery rates. It’s no wonder athletes who use it have such of an edge over those who do not.
Soon nearly every athlete who competes will use it (if they don’t already). Creatine’s ability to enhance energy reserves in muscles comes from its muscle protein synthesising action while minimising protein breakdown. This occurs because creatine has the awesome effect of super-hydrating muscle cells with water. It enhances muscles’ growth too-making muscle fibres bigger and stronger.
Quite a few studies have been done on creatine to figure out why and how it works so well. There have been over twenty double-blind (meaning neither the researchers nor the subjects knew who was getting what), placebo-controlled studies conducted on creatine in the past five years. They proved that creatine increased energy levels, resulting in increased strength, endurance levels, and recovery rates. Another unexpected benefit attributed to creatine was discovered as well: creatine accelerates fat loss while building lean body mass!
3. Who needs it and what are some symptoms of deficiency?
First, anyone who is ready to have more energy, build more muscle faster, and have more endurance should try supplementing with creatine monohydrate. Next, anyone who would like to be more toned by increasing lean muscle mass, recuperating faster, and losing that extra little fat roll should supplement with creatine monohydrate. Last, anyone who is involved in the intense physical activity, experiencing physical stress and fatigue, and likes incredible results should supplement with creatine monohydrate.
4. How much should be taken? Are there any side effects?
Excellent results have been observed in taking creatine monohydrate in two different ways
The first way is called loading. This method works very well for anyone who has never taken creatine before. Just as the name implies, it involves loading up or saturating your muscles with creatine. During the first four days to a week, take 20 to 30 grammes per day. Mix it with non-acidic juice or water. Grape juice works well. After this loading period, take a regular intake of between five to fifteen grammes per day to keep your muscles saturated (no need to overdo it). The other method is a more gradual approach to supplementing with creatine monohydrate. Over the course of an extended period, one basically skips the loading phase and just supplements with five to fifteen grammes per day, every day. The best results have been noticed when creatine is combined with a high carbohydrate base, such as dextrose (glucose) and taken about one-half hour before training.
The best part about creatine-no adverse effects has been reported in any studies. NONE! Creatine is totally safe and effective. Creatine has never been shown harmfully toxic. Nevertheless, just like with anything, it is not recommended to over-supplement once your muscles are saturated with creatine there is no reason to. This means, stick to the recommended dosages, and be prepared to experience the very best muscle, strength, energy, and endurance gains possible!
Creatine Questions and Answers
Q: I heard that creatine and caffeine can be consumed at the same time. But an article I read claims caffeine inhibits the absorption of creatine into muscle tissue. Which is true?
A: There was a controversial research study published in 1996 in the Journal of Applied Physiology about creatine and caffeine; however, if you study that article closely, you’ll find that caffeine had no effect on creatine uptake into muscle. A more recent study by Vanakoski, et al. in 1998 investigated the pharmacokinetics of caffeine and creatine, both alone and in combination. They reported when creatine was used alone or even in combination with caffeine that, “creatine was rapidly and efficiently absorbed, as reflected by plasma concentrations.” Because researchers concluded that creatine was efficiently absorbed even when combined with caffeine, it does not appear from the results of this study that caffeine exerts a negative effect on the uptake of creatine into muscle tissue.
Q: I have heard conflicting information about cycling creatine. Should I or shouldn’t I?
A: Some studies support creatine cycling and others do not. There are a couple of different “cycling” strategies you can try: 1. Stay on creatine all the time, but reload once every six weeks; 2. Load for a week, stay in your maintenance phase for six weeks, then stop taking creatine completely for a couple of weeks. Repeat.
Q: I mix creatine with my workout drink in the morning, but sometimes I don’t actually finish it until several hours later. Is creatine stable in solution this long?
A: Creatine is not totally stable in solution, so it’s definitely not a good idea to keep it mixed with liquid for days, but there shouldn’t be a problem mixing it six to eight hours before it’s consumed. Any longer than that and you may be pushing it.
Q: There’s been a lot of press coverage in the past about creatine and muscle cramping. Are studies underway to investigate this?
A: Many scientific studies have been published and presented about creatine over the past years, and we have never seen any scientific evidence that creatine increases an athlete’s chances of experiencing muscle cramps or “pulls.” In fact, results from one recent study conducted at the University of Memphis (entitled “Effects of Creatine Supplementation During Training on the Incidence of Muscle Cramping, Injuries, and GI Distress”) revealed no reports of muscle cramping in subjects taking creatine-containing supplements during various exercise training conditions. Among the test subjects were elite junior swimmers, college football players, and trained and untrained endurance athletes.
Q: Is the loading phase with Creatine necessary to experience any benefits?
A: Necessary is a rather strong word. The loading phase is not required when using Creatine, but results of our university studies indicate that the loading phase helps you reach that magic muscle-creatine saturation point quicker than if you just started out with the maintenance dose. You can reach the same creatine saturation point by taking one serving of Creatine for 30 days as you would from loading for 5 days, but most people aren’t interested in waiting a month for results they could see in a week or less.
Q: Are there any unfavourable effects with using Creatine?
A: Creatine occurs naturally in many foods, with an especially high concentration in red meats and fish. While using Creatine, you may notice increased urination, but this is simply due to the extra volume of liquid you’ll be drinking when mixing your Creatine. If you do not wait three to four hours between doses, you may experience some stomach discomfort. This is easily resolved by spacing your Creatine dosages throughout the day or cutting dosages in half for one to two days.
Q: What is the advantage of taking creatine in a powder versus a capsule or tablet form?
A: Powder can be absorbed by the bloodstream more efficiently than a pill, which has a coating that must be digested first. Also, creatine is taken in gramme amounts which means, you’d need to take 20 1-gram capsules or 40 tablets per day to load. Needless to say, a powder is much more efficient.
Q: If I’m trying to lose fat, should I worry about the calories in Creatine?
A: No. Creatine has no caloric value.
New Study About Creatine’s Safety!
Athletes who use the energy-building supplement creatine can train without raising their risk of injury, researchers say.
“Now we are seeing trends; everybody is finding similar results,” said researcher Mike Greenwood of Arkansas State University.
Some preliminary reports even indicate the risk of injury is lower among athletes who take the supplement. Although these are not definitive studies, the pattern of the findings argues against some criticisms of the training aid.
Creatine, which is present naturally in the body, works by increasing the muscle’s ability to refuel quickly. Supplementation is aimed at making, sure enough, creatine is always available for the job. Greenwood and his colleagues compared Arkansas State baseball players who were using creatine with those who were not. Users reported fewer cases of muscle pulls or strain, missed practices due to injury, and cramping.
Users knew they were getting creatine, leaving open the possibility that the knowledge may have affected their training plans or expectations of results. However, their workouts were carefully monitored and did not deviate from what researchers or the team trainer expected, Greenwood said.
Researchers also had players report on signs of overtraining. The scientists found no perceived differences in fatigue suffered by creatine users and nonusers. However, there were indications that users were less likely to feel they were overtrained and were less likely to report arm and shoulder fatigue, while nonusers were more likely to report feeling they were falling behind in their training.
The findings were reported at several scientific meetings. They amount to early results from an ongoing project to determine the relative risks faced by users and nonusers, said exercise physiologist Conrad Earnest of the Cooper Institute, a Dallas-based research organisation that focuses on exercise. Earnest’s role is to combine results from Greenwood and other collaborators into a database large enough to let statisticians draw more meaningful conclusions. Data so far show that creatine users don’t have more cramping or muscle tears than do nonusers, Earnest said.
Greenwood and his colleagues noted earlier reports that athletes using creatine had cramping and other problems they attributed to creatine. And Earnest said pro football trainers have blamed creatine for such problems. But those claims have not stood up to repeated scientific examinations, the researchers said.
The current findings do not surprise researcher Jeff Volek of the University of Connecticut. Creatine can help athletes get in some extra lifts in training or some extra force in a game, but the effect is not so powerful that athletes “can exceed breaking points for muscle tendons and fibres,” he said. “All creatine is doing is letting you do a few extra reps in weight training, or cut a tenth of a second off your time,” Volek said. “You are looking at a 5 to 10 percent performance improvement.”
Athletes on creatine might overtrain and might hurt themselves, but this would be the result of the athletes expecting to do more than they can, Volek said. “If you want to go from training four days to training seven days, that could lead to overtraining, but that’s not creatine’s fault,” he said.