Product Description
BPC-157 has demonstrated significant capabilities in facilitating the repair of muscle, tendon, ligament, and nerve tissues. It stimulates the production of growth factors, improving cellular regeneration processes and reducing healing times for injuries.
BPC-157 supports angiogenesis—the formation of new blood vessels from pre-existing ones—which is crucial for tissue repair and recovery from trauma. This feature makes BPC-157 particularly effective in wound healing and vascular regeneration.
Studies have highlighted BPC-157’s ability to protect and heal the gastrointestinal tract, particularly in cases of gastric ulcers, colitis, and other inflammatory bowel conditions. Its ability to stimulate healing in the gut lining makes it a key peptide in gastrointestinal health research.
BPC-157 has shown potent anti-inflammatory properties, helping to reduce swelling, pain, and tissue damage caused by trauma or chronic inflammatory diseases. This makes it valuable in the treatment of soft tissue injuries and degenerative diseases.
BPC-157 is known for its non-toxic profile, even in higher concentrations, which makes it safer for long-term research and therapeutic applications compared to other peptides.
|
Parameter |
Description |
|
CAS Number |
137525-51-0 |
|
Product Name |
BPC-157 |
|
Molecular Formula |
C62H98N16O22 |
|
Molecular Weight |
1419.58 g/mol |
|
Amino Acid Sequence |
H-Glu-Glu-Pro-Pro-Pro-Asp-Phe-Gly-Pro-Ser-Pro-Gly-Val-Gly-Leu-Val-OH |
|
Appearance |
Lyophilized powder, white to off-white solid |
|
Storage |
Store at -20°C, protected from light |
|
Specification |
Option |
|
Purity |
≥98% (HPLC) |
|
Form |
Lyophilized powder |
|
Vial Sizes |
1mg, 5mg, 10mg, 50mg vials (custom packaging options available) |
|
Packaging |
Sterile sealed vials in moisture-resistant, temperature-controlled packaging |
|
Shelf Life |
24 months from manufacture, when stored under recommended conditions |
BPC-157 is widely investigated for its potential in accelerating tissue repair after injuries, surgeries, or chronic conditions. Researchers have used it in animal models to test its efficacy in accelerating tendon healing, cartilage regeneration, and nerve repair.
Due to its promoting effects on collagen synthesis and increased blood flow, BPC-157 is a prime candidate for studying musculoskeletal injury recovery, especially in conditions such as tendinitis, ligament tears, and bone fractures.
As a gastroprotective peptide, BPC-157 is an important molecule in researching treatments for ulcers, IBD (inflammatory bowel disease), and leaky gut syndrome. Its ability to promote epithelial growth and reduce inflammation makes it a key compound in the development of gut-healing therapies.
Researchers are investigating BPC-157 for its potential to be used in autoimmune conditions and chronic inflammatory diseases, as it can reduce inflammation and help protect tissue from the damaging effects of chronic inflammation.
BPC-157's ability to enhance tissue regeneration and protect cells makes it a valuable peptide in the development of drug delivery systems targeting damaged tissues, especially in the sports medicine and wound care sectors.
