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BPC 157

BPC 157

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  • BPC 157

BPC 157

Availability: Out of stock

$29.99

Availability: Out of stock

$29.99
Description

What is BPC 157?


All the information below is strictly for research purposes only. Under no circumstance should this chemical be used for human consumption.


BPC 157 is pentaecapeptide that consists of 15 amino acids. The empirical formula of BPC 157 is C62H98N16O22 and molecular mass is 1419.53552. BPC 157 is also known as Booly Protection Compound 15 and BPC-15. The molecule exhibit potent anti-inflammatory properties against acute and chronic inflammation. In clinical studies, BPC 157 significantly facilitated healing of bone fractures in experimental animals. BPC 157 exhibits osteogenic effects by improving the segmental bone defect healing. BPC 157 rapidly heals transected Achilles tendon and quadriceps muscles in experimental animals. BPC 157 is vital for regulation of digestive tract functions. The peptide is widely distributed in the intestine, esophagus and stomach. BPC 157 protects the endothelium, promotes wound healing and angiogenesis.


BPC 157 significantly reduces symptoms of inflammatory bowel disease, ulcerative colitis and other inflammatory disease of the colon. In scientific studies, BPC 157 suppressed symptoms of esophagitis and associated symptoms. BPC 157 reduces gingivitis, periodontitis and extravasation in gingiviomucosal tissue. BPC 157 lowers alveolar bone resorption by modulating calcium release from bone. According to cultures of tendons experimented with BPC 157 and the other without the peptide, the medium that had BPC 157 showed faster growth and outgrowths. Moreover, it does not affect proliferation of cells coupled with increased survival of the cells under oxidative stress. FITC-phallodin staining indicated that BPC 157 induces the production of F-actin, which is responsible for fibroblast formation. Western blot indicated that the polypeptide increases the rate of phosphorylation of FAK proteins and paxillin . Trials indicate that BPC 157 can prevent stomach ulcers as well as healing the formation of the colitis. Moreover, there is research undergoing to determine the effectiveness of the polypeptide in treating liver damage from excessive exposure of alcohol.


BPC 157 chemical profile


Molecular formula: C62H98N16O22


Molecular weight: 1419.53552 Daltons


Purity: >99%
Sequence: L-Valine, glycyl-L-alpha-glutamyl-L-prolyl-L-prolyl-L-prolylglycyl-L-lysyl-L-prolyl-L-alanyl-L-alpha-aspartyl-L-alpha-aspartyl-L-alanylglycyl-L-leucyl-; glycyl-L-alpha-glutamyl-L-prolyl-L-prolyl-L-prolylglycyllysyl-L-prolyl-L-alanyl-L-alpha-aspartyl-L-alpha-aspartyl-L-alanylglycyl-L-leucyl-L-valine



What is BPC 157?


BPC 157 is pentacapeptide that consists of 15 amino acids. The empirical formula of BPC 157 is C62H98N16O22 and molecular mass is 1419.53552. BPC 157 is also known as Body Protection Compound 15 and BPC-15. The molecule exhibit potent anti-inflammatory properties against acute and chronic inflammation. In clinical studies, BPC 157 significantly facilitated healing of bone fractures in experimental animals. BPC 157 exhibits osteogenic effects by improving the segmental bone defect healing. BPC 157 rapidly heals transected Achilles tendon and quadriceps muscles in experimental animals. BPC 157 is vital for regulation of digestive tract functions. The peptide is widely distributed in the intestine, esophagus, and stomach. BPC 157 protects the endothelium, promotes wound healing and angiogenesis.


BPC 157 significantly reduces symptoms of inflammatory bowel disease, ulcerative colitis and other inflammatory disease of the colon. In scientific studies, BPC 157 suppressed symptoms of esophagitis and associated symptoms. BPC 157 reduces gingivitis, periodontitis, and extravasation in gingivobuccal tissue. BPC 157 lowers alveolar bone resorption by modulating calcium release from bone. According to cultures of tendons experimented with BPC 157 and the other without the peptide, the medium that had BPC 157 showed faster growth and outgrowths. Moreover, it does not affect proliferation of cells coupled with increased survival of the cells under oxidative stress. FITC-phalloidin staining indicated that BPC 157 induces the production of F-actin, which is responsible for fibroblast formation. Western blot indicated that the polypeptide increases the rate of phosphorylation of FAK proteins and paxillin. Trials indicate that BPC 157 can prevent stomach ulcers as well as heal the formation of the colitis. Moreover, there is research undergoing to determine the effectiveness of the polypeptide in treating liver damage from excessive exposure to alcohol.


Currently, BPC 157 has gained a huge popularity among researchers because of its functionality in accentuating the release of antibodies or body protection compound. Body protection compound is important in preventing damage to cells in the gastrointestinal tract. Studies reveal that this peptide is effective in accentuating various biological processes that will bring a net positive effect in wound healing among other properties. According to modern science research BPC, the peptide has the ability to regulate and control the mechanism of action of the digestive tract. The peptide promotes the release and functionality of various digestive enzymes in a biological system. The mechanism of action is via accentuation of endothelial activity and this is vital because it prevents corrosion of the intestinal mucosa. Up-regulation of endothelial cells is vital in accentuating production of gastric juices and activities of endothelial protection. The mechanism of action is via regulating intracellular proliferation and multiplication of cells.


How It Works


The main principle of action is via regulation of angiogenesis. Angiogenesis is the multiplication of cells in various domains of the system. It is important to note that production of new blood cells from existing cells plays a crucial role in accentuating blood functionality. Without such a feature in the system, newer blood cells would diminish and this would affect the transfer of nutrient and blood to different parts of the system. BPC peptide up-regulates granulosa cell synthesis and it helps in the formation of new granulosa tissues. Granulation involves tiny blood vessels that develop on a site of injury or damage on any broken tissue. BPC is important peptide in accentuating healing of broken tissue and wound because multiplication of cells to an injury site helps in transfer of cells from one end to another. It is important to know that cellular transfer through tissues play a key role in wound healing process because the test subject will experience healing as cells division occurs rapidly.


The main function of body protection compound is to enhance multiplication of blood cells and this is vital in combating various ailments that emanate from fungi, bacteria, and other pathogens. Moreover, studies done on mice shows that BPC 157 peptide plays a vital role in alleviating conditions such as bowels disease. According to research findings, the peptide alleviates development of conditions such as Chron’s diseases and ulcers or ulcerative colitis. The main aspect of modern science research is that it plays a vital role in reducing effects of esophagitis, this is a condition that affects esophagus. It is characterized by inflammation of the esophageal cells and this makes swallowing, eating or any neck movement difficult. In addition, it worsens existing throat conditions, it is considered as one of the most important peptides in preventing loss of blood in case there is an injury. Blood loss is the main cause of poor immune system and a longer healing duration. BPC peptide is important in reducing inflammation of alveolar bone resorption and damage to bones.


Alveolar bone resorption and low calcium intake can result in weak bones and this often causes brittle bones or poor posture because the bones cannot support the weight of the organism. The mode of action is through blocking of the release of calcium from bones. This process is defective to the bones because it reduces bone density and it affects bone strength. Addition research points out that BPC accentuates new blood cell formation and this aids in the transfer of blood and nutrient to different vessels in a biological system. Research done on Achilles tendons of mice indicates that BPC increases the levels of body protection compound in the system. BPC can be isolated from gastric juice and it is used in various scientific research studies trying to identify functionality and essence of BPC. BPC peptide has the ability to regulate the gastric or digestive system. The main modes of action are via protection of endothelial cells from adverse effects of acid corrosion and the second method is via regulation of formation of new blood cells from preexisting cells.


In essence, these two processes are important because it determines the adversity of injuries through the formation of new cells. Moreover, it has the ability to regulate blood flow in the digestive tract. Research shows that BPC has anti-inflammatory properties and recent findings showed that it has a positive feedback mechanism on prevention of cellular degradation. Promoting healing process by accentuating proper healing of cells is crucial because most cells undergo damage without any notice in some cases. Studies show that it plays an essential role in reducing complex vascular tissue response in large and small intestines. In addition, conditions such as ulcerative colitis and Chron’s disease can be alleviated effectively with the administration of the peptide.


Recent research reveals that BPC 157 has a net positive effect in reducing adverse effects of other conditions that affect blood flow in the system. These conditions include gingivitis and other gum related conditions, these often causes inflammation and blood loss. Recent research study shows that when administered to research mice, BPC enhanced reduction of conditions by lowering fluid leakage. This process usually occurs around teeth region caused by inflammation and transfer of blood cells to various organs and tissues. The main benefit of the peptide is that it accentuates production of calcium and it inhibits alveolar resorption thereby reducing chances of developing brittle bones. Research done on mice indicates that BPC peptide has wound healing properties via production of new cell lines. The production of new cells and transfer to the site of injury is an important process for wound healing to occur.


Blood flow is not inhibited when cells are transferred to the peripheral organs for healing purposes. New blood cell formation is crucial for any activity to occur. Studies reveal that Achilles tendons of mice that were cut traversal showed healing properties once the peptide was administered. It is essential to note that the process increased rapidly when compared to placebo mice that were not placed on the administration of BPC peptide. Wound healing properties occur rapidly because new cell lines and accentuation of better cellular lines occur. Administration of BPC peptide increases cellular functionality and tendon cell multiplication, therefore, increasing efficacy and potency of the peptide. Moreover, BPC peptide promotes cell division and it improves response system of the peptide. Cellular survival is increased and the peptide shows that enhanced cellular multiplication is crucial in the healing process. It is vital to note that BPC supplied is solely for research purposes and human consumption is not allowed. Moreover, the experiments should be conducted in a controlled environment such as a laboratory or research center. This is essential because any change in parameters would result in failure of the results.


BPC 157 increases the ability of tissue healing process and the main objective of research are to accentuate healing process. Modification and development of new cells depend on the test subjects. It is imperative to note that BPC is composed of fifteen amino acids and they are all important in accentuating cellular division and generation of new cell lines that would otherwise prevent cellular death. More research is still underway in determining the efficacy and potency of BPC peptide, however, previous results have shown that there is a bright future in research and development. Doppler flow cytometry is used in determining blood and peptides present in a biological system. In addition, this technique gives an accurate measure and using it for research is perfect because it will give a precise data.