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AOD-9604

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Research Use Only

These products are sold for laboratory research only and not intended for medical use. They are not FDA-approved to diagnose, treat, cure, or prevent any disease.

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What is this product?

AOD-9604 is a synthetic peptide fragment derived from the C-terminus of human growth hormone (hGH 176–191, with an added N-terminal Tyr). It is studied for its effects on lipolytic and anti-lipogenic pathways, β3-adrenergic signaling, and metabolic regulation in laboratory and preclinical models.

Heffernan M. et al. (2001).

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Frequently asked questions

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Orders are usually processed within 1–3 business days. Delivery time depends on your location and the selected shipping method. Tracking information will be provided once your order has shipped.

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If there is an issue with your order, please contact us within 7 days of delivery. Refunds or replacements may be offered for damaged, missing, or incorrect items after review. Opened or used products are not eligible for return.

What’s the actual amount in each vial? +

Each vial contains exactly what’s shown on the label. For example, a 10mg vial has exactly 10mg of lyophilized peptide. Researchers can divide it into smaller portions—like four 2.5mg measurements—but the total amount remains 10mg.

Are additional supplies needed? +

Peptides are supplied as lyophilized powder. They do not come reconstituted, and any extra supplies must be sourced separately for research applications.

How long does a vial last? +

In lyophilized powder form, peptides stay stable for up to 2 years. After reconstitution, it should be refrigerated and is generally stable for up to 2 months.

Does the product come with instructions? +

Products from AssayGrade Peptides do not include usage instructions, as they are strictly for in vitro research and prohibited by law for human or animal use. Misuse or unlawful application will result in permanent denial of service.

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History

The peptide was first synthesized by researchers investigating cytoprotective proteins found in gastric juice. Early experiments focused on its ability to support structural integrity in gastrointestinal models. Over time, studies broadened into musculoskeletal, vascular, and dermal systems, where BPC-157 consistently demonstrated properties of interest in the context of tissue regeneration and biological resilience.
Pflaum, M., & Ručman, R. (2005).

Research Findings

BPC-157 has been studied in structural, vascular, dermatological, and systemic models, with reports of activity in collagen regulation, extracellular matrix remodeling, angiogenesis, and wound closure. Research also highlights protective roles in preclinical systems, supporting cellular integrity and recovery processes.

Key Areas of Research:

• Structural: Collagen, matrix, tendon

• Vascular: Angiogenesis, nitric oxide, repair

• Dermatological: Wound closure, vessel growth, cells

• Systemic: Protection, viability, recovery

Together, these findings suggest broad experimental utility for BPC-157 across multiple biological pathways. Its activity in structural, vascular, dermatological, and systemic models provides a foundation for exploring diverse aspects of regenerative biology. By influencing processes such as collagen regulation, vascular growth, and cellular protection, BPC-157 offers a versatile platform for research into tissue repair, recovery, and systemic resilience within experimental settings.

Sikiric P. et al., Current Pharmaceutical Design, 2020

References

Sikiric P. et al. (1993). A new gastric juice peptide, including BPC-157, characterized and synthesized.

Pavlovic I. et al. (2003). The promoting effect of pentadecapeptide BPC-157 on tendon healing involves tendon outgrowth, cell survival and cell migration.

Staresinic M. et al. (2003). Effects of BPC-157 on ligament and tendon repair in experimental models.

Chang CH. et al. (2009). Protective effects of BPC-157 in experimental colitis models.

Hsieh MJ. et al. (2015). Therapeutic potential of pro-angiogenic BPC-157 in wound healing and burn models.

Seiwerth S. et al. (2018). Mechanisms of angiogenic activity and NO-system modulation by BPC-157

Kang EA. et al. (2025). Protective effects of BPC-157 on liver, kidney, and lung in ischemia–reperfusion injury models.

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