BPC-157 β 10mg
$50.00
BPC-157
BPC-157 is a peptide known for its potential in promoting tissue repair, regeneration, and overall healing. Derived from the human gastric juice protein, BPC-157 has been studied for its ability to accelerate recovery processes, particularly in musculoskeletal injuries, wound healing, and inflammation management. It is of interest in research for its possible effects on promoting faster recovery and reducing pain in damaged tissues.
Potential Research Applications
BPC-157 is currently being explored in research settings for its role in:
- Tissue Repair & Healing: Investigated for its potential to accelerate the healing of muscles, tendons, ligaments, and other soft tissues.
- Inflammation Regulation: Studied for its ability to reduce inflammation and promote faster recovery after injury.
- Wound Healing & Regeneration: Researched for its effects on wound healing and cellular regeneration, particularly in cases of soft tissue damage.
β High-Quality Research Peptide β Produced under stringent quality control standards.
β Lab-Tested for Purity β Ensures consistency for scientific studies.
β Research Use Only β Not for human consumption or medical applications.
β Peptides β Will arrive in a lyophilized (powder) form for maximum stability.
The peptides are available for research and laboratory purposes only. Please review and ahere to our Terms and Conditions before ordering.
- Description
- Certificate of Analysis
BPC-157 is a synthetic peptide studied for its potential role in tissue repair and recovery. Researchers derived it from a partial sequence of the naturally occurring Body Protection Compound (BPC) found in gastric juices. Studies focus on its effects on various biological processes related to tissue maintenance and regeneration, particularly in muscles, tendons, ligaments, and the gastrointestinal system.
BPC-157 consists of a 15-amino acid sequence that interacts with cellular pathways involved in tissue repair and inflammation regulation. Research suggests it may promote angiogenesis, the formation of new blood vessels, enhancing circulation to damaged areas and supporting healing. Researchers also explore its potential to modulate growth factors and repair mechanisms in response to injury.
Preclinical research shows that BPC-157 may aid tissue recovery by supporting collagen production and cellular regeneration. This has driven studies into its effects on muscle strain, tendon integrity, ligament resilience, and joint health. Researchers continue to explore how BPC-157 contributes to tissue stability and repair processes in various experimental models.
In addition to musculoskeletal applications, research examines BPC-157βs effects on gastrointestinal tissue. Studies suggest it may help maintain gut integrity, especially in conditions involving inflammation or injury to the digestive tract. These findings spark further interest in its role in supporting gastric and intestinal health.
BPC-157 also demonstrates anti-inflammatory properties, with research focusing on its ability to modulate inflammation and support recovery. Unlike conventional anti-inflammatory agents, BPC-157 targets cellular pathways without disrupting systemic inflammatory responses. These unique properties make BPC-157 an intriguing subject for tissue health and metabolic regulation research.
As research continues, studies aim to better understand BPC-157βs mechanisms of action and its potential in regenerative science. Ongoing investigations seek to fully characterize its effects and expand its applications in biomedical research.
For Research Use Only
No Certificate of Analysis images available for this product.
