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BPC-157

$65.00

In Stock

This peptide is widely studied for its potential role in tissue repair and gastrointestinal protection. Derived from a protective gastric protein, BPC-157 has been associated with promoting angiogenesis, supporting tendon and ligament recovery, and modulating inflammatory pathways. Its multi-system effects make it a key compound in regenerative research focused on injury recovery and cellular healing.

In stock

Quantity	Discount (%)	Price
1	—	$65.00
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8+	38.46 %	$40.00

99%+ Purity Tests

Ships from USA

USA Lab Tested

Free bacteriostatic water with every order.

Overview

Research indicates that BPC-157 may support tissue repair and help modulate inflammation systemically. This 15 amino acid peptide, originally derived from a protective gastric protein, has demonstrated encouraging findings in preclinical studies involving muscle, tendon, and ligament recovery. Evidence suggests it may influence growth factors associated with healing while also supporting gastrointestinal integrity. Its broad research profile has drawn interest in studies focused on recovery, resilience, and overall physiological support. For an in-depth look at the research and laboratory applications, see our BPC-157 research guide.

Key Characteristics

Molecular Details

Formula: C62H98N16O22

Weight: 1419.54 g/mol

CAS: 137525-51-0

Sequence: Gly-Glu-Pro-Pro-Pro-Gly-Lys-Pro-Ala-Asp-Asp-Ala-Gly-Leu-Val

Product Information

Form: White and off-white Lyophilized powder

Solubility: Soluble in water

Half-life: Approximately 30 minutes, stable in various PH conditions

Storage: Keep refrigerated 36‑46 °F (2‑8 °C)

How It Works

A gastric-derived pentadecapeptide researched for its regenerative properties, tissue protection effects, and ability to support musculoskeletal and vascular repair mechanisms.

Primary Mechanisms

Cytoprotection & Tissue Stabilization

Supports cellular protection against injury and promotes structural tissue integrity

Nitric Oxide System

Enhances formation of new blood vessels to improve oxygen and nutrient delivery to damaged tissue

Extracellular Matrix Modulation

Regulates collagen synthesis and matrix remodeling during the healing process

Nitric Oxide & Vascular Signaling Support

Influences endothelial function and improves microcirculation in injury models

Research Benefits

Accelerated Musculoskeletal Recovery

Studied for improved healing of muscle tears, tendon injuries, ligament damage, and joint trauma

Gastrointestinal Repair Support

Investigated for enhanced ulcer healing and improved gut barrier integrity in preclinical research

Enhanced Vascular Healing

Explored for protective effects on blood vessels and improved tissue perfusion

Inflammatory Response Modulation

Evaluated for balancing inflammatory signaling during the tissue repair process

Research Findings

Laboratory investigations have provided valuable insights into CJC-1295’s biological activity and research applications.

Gastrointestinal Healing

Given its origin in gastric peptides, BPC-157 has shown strong potential in gastrointestinal research. Findings suggest:

Accelerated repair of ulcerative lesions
Protective effects in inflammatory bowel models
Support for restoration of intestinal barrier integrity
Promotion of healing in fistula-like tissue disruptions

Musculoskeletal Recovery

Research findings indicate enhanced tissue repair in:

Muscle and ligament tears
Tendon damage, including complex Achilles tendon models
Bone fractures and delayed healing scenarios
Joint structures and cartilage-related injuries

Vascular Health

BPC-157 has shown notable activity in vascular research models, including:

Stimulation of new blood vessel formation
Protective effects on endothelial cell integrity
Enhanced circulation to injured tissues
Investigational potential in vascular obstruction models

Potential Side Effects in Research

Safety considerations and tolerability profile observed in research settings.

Minimal Adverse Effects

Research observations consistently note few to no significant side effects

No Toxicity

High-dose evaluations have not demonstrated toxic responses

Injection Site

Occasional, mild localized irritation may occur

Systemic Tolerance

Well tolerated across multiple experimental models

Safety considerations and tolerability profile observed in research settings.

References

Sikiric, Predrag, et al. “The Stable Gastric Pentadecapeptide BPC 157 Accelerates Healing of Transected Rat Achilles Tendon.” Journal of Orthopaedic Research, vol. 28, no. 9, 2010, pp. 1155–1161. PubMed

Vukojević, Jelena, et al. “BPC 157 and Musculoskeletal Healing: A Systematic Review of Preclinical Evidence.” Current Pharmaceutical Design, 2024. PubMed

Staresinić, Mirjana, et al. “Gastric Pentadecapeptide BPC 157 Accelerates Healing of Transected Rat Muscle.” Journal of Orthopaedic Research, vol. 24, no. 5, 2006, pp. 1109–1117. PubMed

THIRD-PARTY LAB TESTED

Certificate of Analysis

Independent laboratory testing confirms purity and composition

99.235%

Purity

26ABF

Batch

March 2026

Date

BPC-157

99%+ Purity Tests

Ships from USA

USA Lab Tested

Overview

Key Characteristics

Molecular Details

Product Information

How It Works

Primary Mechanisms

Cytoprotection & Tissue Stabilization

Nitric Oxide System

Extracellular Matrix Modulation

Nitric Oxide & Vascular Signaling Support

Research Benefits

Accelerated Musculoskeletal Recovery

Gastrointestinal Repair Support

Enhanced Vascular Healing

Inflammatory Response Modulation

Research Findings

Gastrointestinal Healing

Musculoskeletal Recovery

Vascular Health

Potential Side Effects in Research

Minimal Adverse Effects

No Toxicity

Injection Site

Systemic Tolerance

References

THIRD-PARTY LAB TESTED

Certificate of Analysis

99.235%

26ABF

March 2026

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