Synthetic compounds are often developed in order to assist in improving the overall well-being of the human body, as well as to assist in the treatment of disease. BPC-157 is one particularly important example of how a synthetically produced chain of amino acids may be useful in helping patients overcome certain conditions and experience a significant improvement in the regeneration of certain cells and tissues within their body.
BPC-157 is classified as a peptide, which consists of multiple amino acids that are appropriately structured together in order to yield one compound, considered a Body Protection Compound. The use of the compound ranges from improving joint regeneration in conditions where joints were damaged, all the way to improving overall brain health and cognitive function.
In this post, we are going to explore what exactly BPC-157 is, what the compound is used for, and consider any potential side-effects that should be noted. We will also take a closer look at scientific studies that have been conducted up to now and consider the appropriate BPC-157 dosage for those who are looking to explore the possibilities of the peptide.
What Is BPC-157?
BPC-157 is a combination of 15 different amino acids, classified as both a peptide and a protein. The “BPC” in the term stands for “Body Protection Compound,” which refers to the actual function of the peptide – acting as a protective mechanism for the body. The scientific classification for the BPC-157 compound is C62-H98-N16-O22. This means there are 62 carbons, along with 16 nitrogens, 22 oxygen atoms, and 98 hydrogen compounds found in this particular peptide. The sequence involved in this particular peptide includes 15 different amino acids that are chained together in a very specific way in order to form the peptide and exhibit the specific functions that are associated with BPC-1571.
At the moment, the majority of studies that have been conducted on the use of BPC-157 has looked at how the peptide may be of use in rat models that have experienced joint-related problems, such as degeneration, toxicity, and possibly trauma induced by a surgical procedure. Many publications have also classified BPC-157 as the best peptide for joint repair, due to the evidence surrounding the effects that the compound has on joint-related damage and other issues that affect joints.
Some studies have also found that the use of BPC-157 may yield positive effects in relation to cognitive function, as well as brain health in general. This could make the peptide a useful mechanism for the prevention of certain conditions that affect the brain, such as Parkinson’s disease. Gut health might also possibly benefit from the use of the peptide.
Another possible benefit expressed by the BPC-157 compound would be its angiogenesis effect. This means that BPC-157 peptides might be able to assist with the production of blood vessels.
Are There BPC-157 Side Effects That Should Be Noted?
Even though some potential warnings have been expressed in terms of using BPC-157, these warnings are mostly related to the fact that this is a synthetic peptide. No significant side-effects have yet been noted in studies where the compound have been analyzed.
BPC-157 Scientific Studies
Multiple studies have been conducted on the use of BPC-157, with most being on animal-based subjects. Below is an overview of some studies:
- One study2 found that the use of BPC-157 may assist in cellular survival and migration, as well as the growth and healing of tissues in tendons that have suffered damage.
- A study3 conducted on rodent subjects that after just a few days of being administered BPC-157, the damage that has been dealt with the intestines of rats with inflammatory bowel syndrome were repaired significantly.
Where To Buy BPC-157? Genx Peptides offers the highest quality BPC-157
At the moment, the availability of BPC-157 peptide for sale is still somewhat limited. There are a couple of oral tablets available on the market, but individuals interested in using the peptide should note that the absorption rate of an orally-administered option is very low, which means they will likely not experience the full effects of the peptide. Instead, it is usually advised to purchase a vial that contains a liquid for of BPC-157. In this case, the liquid would be injected directly into the body, underneath the skin. This helps to enhance the absorption rate and may yield better effects in terms of providing the body with the protective benefits of the peptide.
I recommend purchasing BPC 157 from an accredited quality assurance provider such as Genx Peptides. There are only a select few companies in the USA that have these credentials as they are licensed, only use a GMP certified facility which gurantees a high quality of 98% or higher peptide purity.
The dosage of BPC-157 is usually dependant on the individual’s body weight. In the majority of rat subjects, the dosage was limited to around ten micrograms per one kilogram of body weight. It has been estimated that human subjects will need to obtain approximately 16 micrograms per one kilogram of body weight, however, in order to produce appropriate effects and for a human subject to experience the potential benefits associated with the compound.
This means a person who weighs around 150 pounds will need to obtain around 110 micrograms of BPC-157 on a regular basis, often administered on a day-to-day basis, for the benefits to become effective. A 250-pound individual would need to be administered with a daily dose of around 180 micrograms.
BPC-157 is a protective compound in the form of a peptide that may assist in providing certain benefits to the body, including positive relations in terms of surgical trauma and toxicity in the body. At the moment, human studies are considered limited, since the majority of current studies surrounding the use of the peptide have primarily focused on determining how effective and safe the peptide is in rat and other animal subjects. Still, the use of the peptide is becoming more popular, and scientists are starting to turn their focus toward analyzing the effect of BPC-157 on human subjects.