BPC 157 Arginate vs BPC 157 Acetate
Another way to evaluate the quality of a BPC 157 source is to look at whether the seller understands the difference between the arginate and acetate versions of the peptide. BPC 157 acetate is a slightly modified version of the natural peptide that provides for increased shelf-life and better resistance to the extremes of shipping environments. BPC 157 acetate is commonly used for subcutaneous injection as it is degraded in the GI tract to such an extent that nearly 98% of it is gone after just a short time in gastric acid.For researchers interested in understanding the effects of oral administration of BPC 157, then the arginate salt is preferred. BPC 157 arginate retains the superior shipping and storage properties of BPC 157 acetate, but is also stable in gastric acid for extended periods. Research shows that just 10% of BPC 157 arginate is degraded after 5 hours in gastric acid.BPC 157 arginate is sometimes referred to as “stable BPC 157.” This is a correct usage of the term stable, but it is important for anyone looking to buy BPC 157 that they specify whether the seller is referring to BPC 157 arginate or acetate as the two peptides are both “stable” depending on context.
What Is BPC 157?
If you are looking to purchase BPC 157, you likely already know what the peptide is and the research that has been done on it. Still, it is important to cover this topic broadly so that you can evaluate whether the BPC 157 source you are considering buying BPC 157 from is reliable or not.
BPC 157 is a synthetically produced peptide based off of the naturally occurring body protection compound (BPC) protein that was isolated from human gastric contents. This short peptide has been shown to have both anti-inflammatory and wound healing effects not just in the gastrointestinal system, but in musculoskeletal and neurological tissue as well. BPC 157 also promotes the growth of blood vessels and is thought to help maintain homeostasis.
Research on BPC 157 has focused primarily on its wound healing properties. It has undergone phase 1 clinical trials and has been investigated as a potential treatment for tendon injury, inflammatory bowel disease, and accelerating the rate of fistula healing.
