BPC 157 Explained


How BPC 157 Works

According to scientific study that has been conducted on animal test subjects, BPC 157 has been shown to be present in gastric juices, and can manifest itself all throughout a test subject’s digestive tract.  When it has been isolated, it has been shown to exhibit anti-ulcer peptidgeric properties, meaning that is has the capability of providing a measure of regulatory control over the digestive tract’s overall functionality.  It has been determined that BPC 157 can provide this regulation in part because of two processes:

  • Endothelium protection – It has been shown that BPC 157 has the faculty to safeguard the thin layer of cells that line the interior surface of blood vessels
  • Properties of angiogenesis – It has been determined that the peptide plays a vital role in the process in which new blood vessels are formed from pre-existing blood vessels.

These functions can be related to several other functions that have been connected to the peptide through scientific study based on animal test subjects.  For instance, BPC 157’s angiogenic properties allow it to play a key role in wound healing and in the formation of the new connective tissue and tiny blood vessels that develop on the surfaces of wound during its healing process.  Additionally, the properties help to regulate blood flow throughout animal gastro-intestinal tract.  They also have been shown to tie into anti-inflammatory properties.

BPC 157 as a Theorized Aid

Because of the way in which BPC 157 has been shown to operate throughout an animal test subject’s digestive tract, scientific study has been able to theorize a host of ways in which the peptide could provide aid regarding certain gastro-intestinal functions.

One of the ways in which BPC 157 has been determined to be an aid concerns the collection of complex tissue responses concerning the colon and small intestine that make up inflammatory bowel disease.  These conditions, such as ulcerative colitis and Chron’s disease, are marked by unpleasant symptoms relating to ulcers and chronic inflammation.  It has been determined that the peptide’s natural anti-inflammatory and wound healing properties can be shown to lessen the effects of these particular conditions by improving the affected digestive tracts with a more stabilized sense of regulation.

A second aid that has been put forth involves activities involved at the start of the digestive tract, as its anti-inflammatory properties have been shown to play a key role in lessening the effects of periodontitis.  This condition is essentially a set of inflammatory diseases that has been shown to affect the tissues that surround and support the teeth.  Scientific study that has been conducted on lab rats has determined that the presence of the peptide can prevent the leakage of fluid related to gum line inflammation from occurring.  It ha also been shown that the peptide can reduce levels of alveolar bone resportion, which is the process where calcium is released from bone fluid and is subsequently entered into the bloodstream.

Furthermore, scientific study based on animal test subjects has determined that BPC 157 can play a key role in significantly lowering levels of toxicity levels that can otherwise build up as a result of other foreign agents infiltrating the test subjects’ bodies.  Research that has been built on laboratory rats has demonstrated that the peptide’s presence can be particularly instrumental in reducing levels of toxicity characterized by severe lesions that can develop in the gastro-intestinal tract as well as the liver.

Finally, scientific study conducted on animal test subjects has determined that the presence of BPC 157 – specifically, its anti-inflammatory properties – enable it to have theoretic wound healing properties.  Studies on lab rats that had their Achilles tendons cut transversely have demonstrated that the peptide enabled a significant boost in the outgrowth of tendon explants, meaning that the rodents were able to recover from their injury more efficiently.  These studies have also indicated that BPC 157 can promote cellular survival in various instances of wound-based trauma.

Set Aside for Scientific Research

It should be emphasized that despite the extensive amount of research and study that has been conducted in order to pinpoint the functionality and mechanics of BPC 157, it is only intended for the sole use of scientific study at this time.  All of the research and findings that have been determined and discussed are completely built around the scientific study on animal test subjects.  Because of this, any findings or observations that can be tied to BPC 157’s overall functionality, mechanics, or theoretical benefits should exclusively be contained to a laboratory, a medical research facility, or another strictly controlled environment.