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The benefits of peptide research, in an easy-to-use delivery system.
What is BPC-157?
BPC-157 is a synthetic peptide made up of 15 amino acids. It is a naturally occurring peptide found in the human body, specifically in the gastric juice. BPC-157 has been studied for its potential regenerative and healing properties. It is believed to promote tissue repair and regeneration by increasing blood flow and collagen production, reducing inflammation, and promoting the growth of new blood vessels. Some studies of BPC-157 also suggest a wide range of other potential benefits.
Potential Benefits for Research
Muscle, tendon, ligament and bone repair
Anti-inflammation through a decreased inflammatory response
Increased cell regeneration and collagen production
Improved cell survival under oxidative stress
Upregulation of Growth Hormone receptors
Neuroprotection
Support of serotonin, dopamine, opioid, and GABA systems
Improved regulation of blood pressure
Gut and intestinal repair
Compounding w/ TB-500
Increased angiogenesis promotion
More systemic muscle, tendon and ligament repair
Enhanced cell migration and actin protein production
Improved flexibility and mobility
What is MOTS-C?
MOTS‐C is a peptide of 16 amino acids expressed by a mitochondrial gene. Research provides evidence that mitochondria play a key role in signaling and in energy production.
MOTS-C regulates metabolic functions throughout the body, including turning glucose into usable energy. It is fair to call MOTS‐c an exercise‐mimetic, meaning it imitates exercise on the body. MOTS-C also increases muscle glucose uptake without stimulating insulin.
blood flow and collagen production, reducing inflammation, and promoting the growth of new blood vessels. Some studies of BPC-157 also suggest a wide range of other potential benefits.
Potential Benefits for Research
Promotion of metabolic flexibility and homeostasis
Upregulation of mitochondrial energy and boost NAD levels
Protection against age and diet dependent insulin resistance
Improved exercise capacity
Weight loss
Increased resistance to metabolic stress
Improved glucose regulation
Increased cell differentiation to form osteoblasts
Protection against osteoporosis