Platinum 100% BCAA 8:1:1
- A branched chain amino acid formula designed with a potent BCAA ratio of 8:1:1 (leucine, isoleucine, valine).
- 8:1:1 Ration of BCAAs
- Promotes Muscle Protein Synthesis
- Superior Dose of Leucine
- Improve Sport
- Essential Series
- 1,000mg BCAAs
- Build muscle
- Promote Protein Synthesis
- Prevent Muscle Breakdown
The Building Blocks of Lean Muscle
How it Works
Branched chain amino acids (BCAAs) have been used by top bodybuilders and other athletes for years due to their ability to support their training goals. BCAAs are comprised of three powerful amino acids – leucine, isoleucine and valine – and are perfect for any hard-training athlete, because they serve as key building blocks of muscle. What’s more, BCAAs are considered essential amino acids, because your body can’t produce them on its own.
Who Should Use it
Platinum 100% BCAA 8:1:1 is designed for everyone, from active men and women and fitness enthusiasts to high-performance athletes, powerlifters, crossfitters, bodybuilders, endurance athletes, and anyone looking to boost their BCAA intake to help reduce muscle breakdown while training and build more muscle and strength.
Promotes Muscle Protein Synthesis
Platinum 100% BCAA 8:1:1 is a branched chain amino acid formula designed with a potent BCAA ratio of 8:1:1 (leucine, isoleucine, valine). Unlike other BCAA pills that use ratios like 3:1:2 or 2:1:1, Platinum 100% BCAA 8:1:1 uses an 8:1:1 ratio to load your muscles with leucine with every serving. mTOR is like a molecular switch that turns on the machinery that manufactures muscle proteins, and research shows leucine is one of the major activators of mTOR. So, leucine not only provides building blocks for protein synthesis, but it also plays a critical role in upregulating the process!
Every serving of Platinum 100% BCAA 8:1:1 ensures that your muscles are primed for musclebuilding!
These statements have not been evaluated by the Food and Drug Administration. This product is not intended to diagnose, treat, cure or prevent any disease.