BPC-157

Batch #405410Batch #405410
Report #48249Report #48249
Tested at 9.74mgTested at 9.74mg
Size: 10mg
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RESEARCH USE ONLY
These compounds are NOT intended for human consumption, clinical use, or veterinary applications. We are not affiliated with any pharmaceutical companies or their commercial medications. By placing an order, you certify these materials will be used exclusively for in vitro testing and laboratory experimentation only. Bodily introduction of any kind into humans or animals is strictly forbidden by law. This product should only be handled by licensed, qualified professionals. This product is not a drug, food, or cosmetic and may not be misbranded, misused or mislabeled as a drug, food or cosmetic.

About BPC-157

Derived from a protein found in stomach juice BPC-157 is known for its quick and effective healing properties across a range of tissues including muscle tendons and ligaments. It also aids in gastrointestinal health and has analgesic properties making it a focus for therapies aimed at comprehensive tissue recovery and gut health.

Product Specifications

BPC-157 Lyophilized Powder in 3ml vial.

Application

Research peptide with potential in angiogenesis and cellular repair research

Appearance

Solid, white powder in 3mL glass ampule

Chemical Formula

C62H98N16O22

PubChem CID
CAS Number

137525-51-0

Molecular Weight

1419.56 g/mol

Synonyms

BPC157, Body Protective Compound 157

Storage

Store at ≤6°C, sealed, away from heat, light, and moisture.

BPC-157 Research

1. BPC-157 and Tissue Healing

BPC-157 is a substance or body protection compound found naturally in the stomach. It can also be available as a research chemical at some places, also. BPC-157 has been extensively studied because it can help the body to repair injuries. Most of the research has been conducted on animals, but the results have been highly encouraging.

In a large review of studies through 1993 to 2024, researchers found that BPC-157 can help heal muscles, tendons and ligaments as well as bones and even nerves. ¹ When administered following an injury, it accelerates the repair process and enhances the quality of tissue to heal, reducing swelling and pain. Some small reports of human cases also indicate it may be beneficial for joint discomfort, but more clinical research is required. ¹

 

2. Mechanisms of Action 

Several studies have shown that BPC-157 supports healing via various biological mechanisms. The first effect is the formation of new blood vessels and a new blood supply in the affected area, which activates growth factors associated with angiogenesis, such as VEGF. Moreover, it activates the ERK 1/2 and AKT pathways, which influence cell survival and tissue growth. 

On the other hand, BPC-157 decreases inflammation, reducing markers such as IL-6, TNF-α, and COX-2. It increases the activity of nitric oxide, which helps with better blood supply to the wounded area. All those actions together create a protection for cells, reduce inflammation and promote faster regeneration.

 

3. BPC-157 and Bone, Muscle, and Tendon Repair 

Animal based studies have indicated that BPC-157 contributes to an effective recovery in a variety of tissues. Further, it enhances collagen orientation and strength in tendon injuries. ⁴ Skeletal muscle injury in BPC-157 group healed better without the presence of any residual scar tissue. Studies on bone-healing suggest that BPC-157 aids the healing of fractures and promotes growth, showing results comparable to those of graft treatments or bone marrow.⁶

In one small human experiment, 12 people got BPC-157 injections for chronic knee pain. Seven claimed to have had pain relief for more than six months. This is a promising indication, however, further human trials are required to support these claims.

 

4. Safety and Research Use

In experiments with animals, BPC-157 appeared to have a high bioavailability and no significant adverse effects at even relatively high doses. ⁸ It is metabolized largely by the liver and excreted by the kidneys. ⁹ To date, in lab studies, there have been no serious genetic damage, toxicity or other birth-defect related risk factors.

Still, there are very few human safety data on it, which is why BPC-157 has not been approved for human use yet, either in therapeutic or dietary applications. It is for lab research use only and all research should be conducted by qualified individuals.

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