Creatine has a very specific effect with very specific training protocols. Arbitrarily adding creatine supplementation without considering training is a huge mistake. Most studies show that a single bout of maximal or sub-maximal effort is not sufficient to elicit a response from creatine supplementation. Creatine has been shown to delay the onset of muscular fatigue during repeated bouts of work A single bout of work appears to have no improvement with creatine supplementation.
This is more than likely due to the role that creatine plays with ATP resynthesis. A single bout of work will deplete ATP stores, yet it is the regeneration of ATP that creatine supplementation affects. Creatine also increases the amount of time that maximal output can be performed - for example, it may increase the duration of a heavy lift, which means more repetitions at the same weight. All of these factors tend to indicate that two major elements are required to benefit from creatine supplementation:
Intensity, in other words, maximal or sub-maximal output duration and repetition - in other words, multiple bouts of work more than likely, these factors are what provided the success of one study, which concluded that enhanced performance and increase of lean mass were due to "higher quality training sessions." These sessions would include moderate to high intensity weights, and moderate to high volume with multiple sets.
Is Creatine Supplementation For Everyone?
Creatine supplementation may not be effective for everyone. There are possible safety concerns with creatine supplementation that will be discussed later. Due to the mechanisms by which creatine supplementation works, it may not be effective for endurance athletes to supplement with creatine. A significant percentage of the general population appears to have no response to creatine.
People on vegetarian diets seem to have a greater response to creatine, theoretically due to the lack of dietary creatine intake. From this, it can be inferred that individuals who consume large amounts of protein on a daily basis, especially red meat, will have a less significant response to creatine supplementation to the amount being ingested through typical dietary means.
It is interesting to note that most creatine research uses the standard protocol of 5 g / d for "maintenance". Anecdotal evidence suggests a high rate of success with creatine supplementation. This same evidence indicates that doses in the field are much higher than the established research protocol or recommended label amounts.
This may account for a higher anecdotal rate of success and perceived effect in the field as opposed to what is suggested in the literature. Anecdotal evidence is not a substitute for scientific research, but should be taken into account. What happens in "the real world" is much more important than what occurs in isolated, scientific trials when trying to make a "real world" application of creatine supplementation.
So What Is The Ideal Creatine Cycle?
Based on the information provided here, I propose the following cycle. The length of an ideal cycle would be relatively short. Many studies suggest that the main response to creatine supplementation occurs during the first week, with subsequent weeks of supplementation rendering no significant increase of performance or mass.
Research is very limited with regard to extended cycles at high doses, however. The cessation of ergogenic effects seems to correlate to the end of the "loading" phase. It is therefore suggested that an extended loading phase may prolong the ergogenic effects. It is also important to cycle off of the product for a prolonged period of time, due to the high dose of the cycle and the potential for contaminants in the product
Supplement Cycle
First, the cycle will be short, only 4 weeks in duration. It will involve a rapid "ramp-up" with a corresponding "ramp-down" of creatine and incorporate glutamine supplementation. Nutrition will be manipulated to favor hypertrophy during the first 3 weeks, then take advantage of super compensation and unloading for the final week.
- First, determine a baseline creatine dose.
- For the average individual, this is proposed to be 0.3 g / kg lean mass.
- For vegetarians, consider 0.4 g / kg lean mass.
- For those with predominant protein (35% of total calories or higher) in the diet, and those who consume at least 1 portion of red meat daily, consider 0.2 g / kg lean mass.
- A discussion of glutamine is outside the scope of this article. The proposed dose is 0.3 g / kg lean mass.
An example individual weighs 180 pounds at 12% body fat. Lean mass is determined to be 158 pounds, or 72 kg. The individual has predominant protein in their diet and consumes red meat frequently. Therefore, the baseline creatine dose is computed to be 72 kg * 0.2 g / kg = 14 grams. Glutamine dose is set at 72 kg * 0.3 g / kg = 22 grams.
Glutamine will be divided into 3 doses: pre-workout, post-workout, and pre-bedtime. This equates to 7 grams pre-workout, 7 grams post-workout, and 8 grams pre-bedtime.
Creatine will be "ramped up". The first week will be 50% of the baseline. Second week is 100% of the baseline, and third week is 150% of the baseline. The unloading week is 50% of the baseline. The creatine will be consumed post-workout (75%) and pre-bedtime (25%). To summarize dosing:
Week 1:
Creatine: 5g post-workout, 2g before bed.
Glutamine: 7g pre-workout, 7g post-workout, 8g before bed.
Week 2:
Creatine: 11g post-workout, 3g before bed.
Glutamine: 7g pre-workout, 7g post-workout, 8g before bed.
Week 3:
Creatine: 16g post-workout, 5g before bed.
Glutamine: 7g pre-workout, 7g post-workout, 8g before bed.
Week 4:
Creatine: 5g post-workout, 2g before bed.
Glutamine: 7g pre-workout, 7g post-workout, 8g before bed.
Week 5:
All supplementation ceases (cycle is complete).
Training Cycle
In order to take advantage of various systems of muscular energetics, a holistic approach is recommended. This approach would involve a series of "mega-sets" (Dr. Fred Hatfield's "Holistic sets" or "ABC training") designed to recruit a broad spectrum of muscle fiber types for each muscle group. An example mega-set for chest might be:
- 6 reps 90% intensity - explosive
10 reps 70% intensity - moderate
40 reps 55% intensity - slow
Intensity is expressed as a percentage of one rep max. If the subject can bench 200 pounds for a single rep, then the mega-set would be:
- 6 reps at 180 pounds - explosive tempo (accelerate as quickly as possible)
10 reps at 140 pounds - steady tempo (1 second down, 1 second up)
40 reps at 110 pounds - slow tempo (3 seconds down, 2 seconds up).
The mega-set is performed with minimal rest - only enough time to strip the weight between mini-sets. After a mega-set, rest no more than 1 minute and repeat the mega-set for a total of three (3) times. Note that these reps are general guidelines. A person with predominantly slow-twitch (endurance) fiber in their chest would have higher reps and may only perform 2 sets, as opposed to another individual with explosive fiber in their chest.
Holistic sets are very taxing on the central nervous system. For this reason, a moderate workout should be used to extend recovery while preventing atrophy. An example schedule for this program:
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