BPC 157, also known as BPC-157, BPC 15, or Booly Protection Compound 15, is a pentaecapeptide that is comprised of 15 amino acids. It possesses a molecular mass of 1419.53552, and it has a molecular formula of C62H98N16O22. It has been determined to be part of a sequence pertaining to body protection compound.
Scientific study based on animal test subjects has shown that BPC 157 is responsible for the regulation and control over various functions regarding the digestive tract. Its isolation from gastric juices has helped to determine that the peptide is visible I various parts of the digestive tract, including:
- The stomach
- The esophagus
- The intestine
The peptide itself has been shown to exhibit a capacity to protect the endothelium. This is the tiny layer of cells that has been shown to line the interior surface of blood vessels. It has also been shown to possess strong properties relating to angiogenesis. This is the process in which the formation of new blood vessels occurs from pre-existing blood cells. These properties, when combined, have enabled scientific study based on animal test subjects to determine a wealth of secondary processes that tie into the peptide’s existence. For example, BPC 157’s ability to aid in the process of angiogenesis has connected it to the process in which granulation tissue is formed. This particular tissue is the new connective tissue and tiny blood vessels that grow and develop on the surface of a wound during the healing process. Thus, it can be ascertained that BPC 157 contains wound healing properties. Also, it has been determined that BPC 157’s basic functionality allows it to possess basic properties related to anti-inflammation, meaning that it can aid in subduing an animal test subject’s negative reaction to various pathogens.
BPC 157 and Wound Healing
Scientific study that has been based on animal test subjects has determined that BPC 157’s functional mechanics not only allow it to be a key player in the wound healing process, but it can also enable it to happen at an accelerated rate. Studies based on laboratory rates that had their Achilles heel transected (that is, cut transversely) showed that the peptide’s inherent wound healing abilities allowed for a significantly accelerated outgrowth of tendon explants to occur. This particular study also was able to determine that BPC 157 allowed for a promotion of overall cellular survival in various instances of wound-based trauma.
BPC 157 and Inflammatory Bowel Disease
BPC 157’s proven anti-inflammatory properties has also allowed scientific study on animal test subjects to conclude that the presence of the peptide can be a significant factor in lessening the effects of inflammatory bowel disease; a collection of complex vascular tissue responses built around the small intestine and the colon. One of the more prominent of these negative conditions is Chron’s disease, which is a chronic inflammatory disorder that is cause by interactions between environmental, immunological, and bacterial factors. Another negative condition tied to this group is ulcerative colitis, which is a disease of the colon marked by open sores or characteristic ulcers.
Other Bodily Interactions
Additionally, scientific study based on animal test subjects has determined that BPC 157’s anti-inflammatory properties can lower the negative effects associated with esophagitis; a condition which is marked by the inflammation of the esophagus, thus making the act of swallowing difficult. It has also been determined that the peptide can be effective in fighting off periodontits; a set of inflammatory conditions effecting the tissues that provide support for an animal test subject’s teeth. Specifically, scientific study on laboratory rats has determined that BPC 157 can reduce extravasation in gingivomucosal tissue, otherwise known as the leakage of fluid that may occur around the teeth as a result of area inflammation. What’s more, the peptide has been able to exhibit a tendency to lower the condition known as alveolar bone resorption, which is chiefly marked by instances of calcium being released from bone fluid and being absorbed by the blood stream. It has been shown that BPC 157 can perform these functions without altering the blood circulation that would be present in healthy gingival.
Purely for Scientific Research
Despite the fact that there has been plenty of research on BPC 157 in relation to how it functions and the benefits that can be derived from such functionality, it should be emphasized that the peptide is still just intended for scientific study at this point in time. All matters of research relating to the way in which BPC 157 operates has all been culled from scientific study on animal test subjects. Because of this, any findings or observations relating to BPC 157’s overall functionality, mechanics, benefits, should exclusively be the product of study performed in a strictly contained environment such as a medical research facility or a laboratory.
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