Recovery Research, All

WOLVERINE BLEND

BPC157/TB500

$80.00

Bundle & Save

Single

$80.00

per bottle

—

3+ Bottles

per bottle

5% off

Title	Quantity	Discount
Discount	1 - 3	0% $80.00
Discount	4 - 5	5% $76.00
Discount	6 - 7	8% $73.60
Discount	8 +	10% $72.00

Title	Quantity	Discount
Discount	1 - 3	0% $80.00
Discount	4 - 5	5% $76.00
Discount	6 - 7	8% $73.60
Discount	8 +	10% $72.00

Description

BPC157/TB500 is a dual-peptide research blend designed for laboratory investigation of tissue-response, cellular migration, extracellular matrix interaction, and repair-associated pathway models. BPC-157 is studied in preclinical systems for cellular protection and tissue-response signaling, while TB-500 is used in research models involving actin regulation, cell migration, and cytoskeletal organization.

This compound is intended strictly for in vitro and preclinical laboratory research.

Specifications

Product Classification: Research-Use-Only (RUO)
Total Content: 5 mg BPC-157 and 5 mg TB-500 lyophilized powder per vial
Compound: BPC-157 and TB-500 peptide blend
Form: Sterile lyophilized peptide blend
Purity: ≥99%
Storage: Store at −20 °C, protected from light
Packaging: Glass vial in protective sleeve

Applications

Intended for preclinical laboratory research only, including:
• Tissue-response pathway research
• Cellular migration studies
• Extracellular matrix interaction models
• Cytoskeletal regulation experiments
• Repair-associated signaling research
• Angiogenesis pathway models
• Comparative peptide blend studies

Warning

Not for human or animal use. For research purposes only.

Scientific Report

Abstract

BPC-157 and TB-500 are peptide research compounds studied for their roles in tissue-response and cellular repair-associated pathway models. BPC157/TB500 is designed for controlled laboratory investigation of cellular migration, cytoskeletal organization, extracellular matrix interaction, angiogenesis-associated signaling, and tissue-response pathway modeling.

Mechanistic Pathway

BPC157/TB500 is designed around combined tissue-response and cellular migration pathway modeling.

BPC-157 Pathway

Supports research into cellular protection models
• Used in tissue-response and repair-associated pathway studies
• Relevant to extracellular matrix and angiogenesis-associated research

Effect: Provides a model for BPC-157-associated tissue-response signaling.

TB-500 Pathway

Supports investigation of actin regulation models
• Used in cellular migration and cytoskeletal organization studies
• Helps evaluate repair-associated cellular movement pathways

Effect: Enables research into TB-500-associated cellular migration and cytoskeletal pathway activity.

Combined Blend Pathway

Supports comparative research into multi-peptide pathway interaction
• Used in models of coordinated cellular response
• Helps study overlapping tissue-response and migration-associated mechanisms

Effect: Provides a dual-peptide model for repair-associated pathway research.

Pharmacokinetics / Research Profile

Compound	Pathway	Research Notes
BPC-157 / TB-500	Tissue-response / cellular migration / cytoskeletal signaling	Dual-peptide blend model for repair-associated pathway research

Dosing Models in Research

Used only in controlled in vitro and preclinical research models to study cellular response, migration, and tissue-associated pathway activity. No human or animal-use instructions are provided.

Preclinical Research Highlights

Studied as a dual-peptide research blend
• Used in tissue-response and cellular migration models
• Supports cytoskeletal and extracellular matrix pathway research
• Relevant to angiogenesis-associated signaling studies
• Useful for comparative repair-associated peptide research

Conclusion

BPC157/TB500 offers a research-use-only model for studying combined peptide effects in tissue-response, cellular migration, cytoskeletal regulation, extracellular matrix interaction, and repair-associated pathway models.