Superior Creatine Uptake And Retention System For Fat Free Gains!
Beverly International’s scientifically advanced formulation of 100% pharmacological grade pure creatine monohydrate plus selected phosphates is designed to increase creatine absorption, uptake, retention and ATP resynthesis.
Training and Performance
Creatine Select Plus Phosphates allows you to train harder with greater intensity and recover faster. Increase training poundages and the number of reps you can get with a given weight. Reduce your rest between sets for added intensity.
Here’s Why CREATINE SELECT Plus Phosphates is Superior to Other Forms of Creatine
There is no doubt that pure creatine monohydrate is one of the most effective supplements on the market. But the fusion of creatine plus phosphates makes a good supplement into a super synergistic supplement combination.
For creatine to be effective in the muscle cell it must combine with a phosphate. The amount of creatine that is utilizable is dependent on the amount of phosphate your body has available. If there is not enough phosphate then your muscle will load less creatine. Adding phosphates allows your body to load and retain more creatine. In short you’ll increase your strength and muscle mass.
The presence of additional phosphates during exercise can improve your body’s ability to regenerate ATP. More ATP results in more reps with less fatigue.
5 More Reasons Why Creatine Select Will Become Your Favorite Supplement
• Great tasting–mixes instantly in water.
• Maximum results–select phosphates lower stomach acid levels that can destroy creatine. SELECT CREATINE Plus Phosphates allows more creatine to enter the muscle cells.
• Rapid transport into the muscles–the advanced sodium / potassium phosphate matrix rapidly shuttles creatine into the muscle cell without the need of simple sugar.
• Research Proven–Recent studies have demonstrated that adding phosphates to creatine results in increased power and a near three-fold improvement in anaerobic working capacity (Wallace et al. 1997) (Eckerson 2001).
