Key Characteristics
- Category: Blends
- Purity: >99% Purity
- Molecular Formula: Complex Mixture
- Molecular Weight: N/A
Available Sizes
About
A powerful blend of BPC-157 and TB-500, two of the most effective peptides for systemic healing and rapid tissue repair.
Mechanism of Action
This blend provides a dual-action approach to healing. BPC-157 primarily works through the GH receptor and angiogenesis, while TB-500 upregulates actin to promote cell migration. Together, they create a synergistic effect that accelerates repair and reduces inflammation throughout the body.
Key Benefits
- Synergistic acceleration of tissue repair
- Potent anti-inflammatory effects
- Comprehensive support for muscle, tendon, and ligament healing
- Improves flexibility and recovery
Clinical Research
While direct research on the blend is limited, the extensive individual research on both BPC-157 and TB-500 supports their complementary mechanisms for healing and recovery. This combination is a staple in regenerative medicine research.
Potential Side Effects
Both peptides are known for their high safety profiles. Side effects are rare but could include mild, temporary irritation at the injection site.
Usage & Dosage
Administered subcutaneously. Research protocols often dose based on the combined total peptide content, typically ranging from 500mcg to 1mg per injection.
Peptide Storage
Best Practices For Storing Peptides
To preserve the integrity of laboratory results, proper storage of peptides is essential. Correct storage practices can maintain peptides for years and guard against contamination, oxidation, and degradation. If the peptides will be used immediately, short-term refrigeration under 4°C (39°F) is generally acceptable. Lyophilized peptides are usually stable at room temperatures for several weeks.
For longer-term storage (several months to years), it is preferable to store peptides in a freezer at -80°C (-112°F). Avoid repeated freeze-thaw cycles and do not use frost-free freezers, as temperatures can fluctuate widely.
Preventing Contamination
To prevent moisture contamination, allow the peptide to come to room temperature before opening its container. Minimize exposure to air; after use, reseal the container under an atmosphere of dry, inert gas (like nitrogen or argon) if possible. Peptides with Cys, Met, or Trp are especially prone to air oxidation.
Storing Peptides In Solution
The shelf life of peptide solutions is far less than that of lyophilized peptides. If peptides must be stored in solution, use sterile buffers at pH 5-6 and separate into aliquots to avoid repeated freezing and thawing. Peptide solutions are generally stable for up to 30 days when refrigerated at 4°C (39°F).