This research peptide blend combines two widely studied compounds— BPC-157 and TB500—both known for their relevance in tissue regeneration, inflammation models, and cellular signaling research. The combination is designed for researchers studying overlapping mechanisms in recovery and repair pathways across muscle, tendon, and connective tissue models.
Note: This product is strictly for laboratory research use only. Not intended for human or veterinary use.
Compound Specifications
- Form: Lyophilized peptide powder
- Composition: 1:1 ratio of BPC-157 (5mg or 10mg) and TB-500 (5mg or 10mg)
- Purity: >99% (HPLC-verified)
- Packaging Options: 5mg/5mg or 10mg/10mg vial
- Storage: Store at -20°C. Avoid repeated freeze-thaw cycles. Reconstitute with bacteriostatic water and use under sterile conditions.
BPC-157: Research Context
BPC-157 is a synthetic pentadecapeptide derived from a naturally occurring protective compound found in gastric juices. Research has shown it may influence angiogenesis, nitric oxide signaling, and collagen synthesis pathways. Laboratory models have explored its role in tendon regeneration, intestinal epithelium studies, and neurological repair mechanisms.
- Mechanisms studied:
- Interaction with growth factor pathways (e.g. VEGF)
- Modulation of endothelial repair
- Stimulation of fibroblast activity and extracellular matrix response
TB500 (Thymosin Beta-4 Fragment): Research Context
TB500 is a synthetic peptide modeled from a portion of Thymosin Beta-4 (sequence LKKTETQ), investigated for its role in cell migration, angiogenesis, and inflammation regulation.
- Mechanisms studied:
- Binding to G-actin to support cellular movement
- Potential upregulation of VEGF and other regenerative markers
- Reduction of pro-fibrotic markers in organ models
Research suggests TB500 may have applications in laboratory models involving soft tissue injury, fibrosis, and vascular remodeling.
Synergistic Research Potential
When studied together, BPC-157 and TB500 may provide complementary data on overlapping tissue repair pathways, especially in research involving:
- Muscle recovery and myogenesis
- Tendon and ligament matrix integrity
- Microvascular remodeling
- Neurological recovery models
This blend is frequently used in preclinical exploration of regenerative pathways due to its broad-spectrum bioactivity across connective and epithelial tissues.
Safety, Status & Usage
- Legal Status: Not approved by the FDA. For laboratory use only.
- Human Use Disclaimer: Not for human or animal consumption. Not a drug or dietary supplement.
Handling: Use only in professional research settings under appropriate safety protocols.
Check Lab Test Here : https://janoshik.com/tests/37697-BPC157_TB500_55_mg_W1F1L9QVUVRP
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