SKU REREB Category Collections Tags Collagen Synthesis, Connective Tissue Synthesis, Inflammatory Response Study, Joint & Connective Tissue, Myogenic Recovery

Tissue Repair & Recovery Research Collection

$193.00

What’s Included: 4 Vials

BPC-157 5 mg + TB-500 5 mg — (1) 10mg lyophilized vial
Ipamorelin — (1) 10mg lyophilized vial
PEG-MGF — 2 mg each — (2) lyophilized vials (total 4 mg)

Research Note: PEG-MGF should not be mixed in the same solution with other compounds due to pH incompatibility.

Form: Lyophilized Powder
Purity: ≥ 99% USA Tested, Verified Purity (HPLC Tested)
Verification: Verifiable COA’s (Batch-Matched)

Emerging Research Evidence:

This research-grade collection supports investigation into soft-tissue repair kinetics, joint mobility markers, and inflammatory signaling pathways within controlled laboratory models.

Keep product in cool, dark place.
Sold for Research Use Only / Not FDA Regulated

Batch-verified inventory. See Individual Products for 3^rd Party COA’s

In stock

BPC-157 + TB-500 10mg Blend Research Peptide Vial

BPC-157 + TB 500 10mg (Research Only)

~~$82.00~~

Wolverine / Warrior Combination Contents: 10 mg | BPC-157 5mg + TB 500 5mg Form: Lyophilized Powder Purity: ≥ 99% USA Tested, Verified Purity (HPLC Tested) Verification: Verifiable COA's (Batch-Matched) Emerging Research Evidence: This dual-peptide blend is analyzed for its coordinated influence on structural integrity and dynamic cellular mobility in laboratory models. Research focus centers on BPC-157 (The Architect) and its role in organizing the collagen-matrix, alongside TB-500 (The Navigator) and its involvement in actin-mediated movement. Together, investigators map how these integrated pathways facilitate angiogenic signaling and molecular resilience, providing a comprehensive blueprint for cellular communication within musculoskeletal and soft-tissue research systems. Keep product in cool dry place. Sold for Research Use Only / Not FDA Regulated Batch-verified inventory. See 3^rd Party COA.

In stock

Ipamorelin 10mg (Research Only)

~~$57.00~~

Growth Hormone Releasing Peptide (GHRP) Contents: 10mg of Ipamorelin Form: Lyophilized Powder Purity: ≥ 99% USA Tested, Verified Purity (HPLC Tested) Verification: Verifiable COA's (Batch-Matched) Emerging Research Evidence: Ipamorelin 10mg is studied in pre-clinical laboratory models as a foundational GHSR pathway analyte used to examine initial somatotropic signaling dynamics and selective receptor-mediated pathway activity. Research systems focus on baseline signal timing, receptor engagement, and downstream biomarker modulation within controlled experimental environments, providing a framework for mapping early-stage molecular interactions without reference to therapeutic or clinical outcomes. Keep product in cool, dark place. Sold for Research Use Only / Not FDA Regulated Batch-verified inventory. See 3^rd Party COA.

In stock

2 x PEG-MGF 2mg (Research Only)

~~$44.00~~

Growth Factor-1 (IGF-1) Contents: 2mg of PEG-MGF Form: Lyophilized Powder Purity: ≥ 99% USA Tested, Verified Purity (HPLC Tested) Verification: Verifiable COA's (Batch-Matched) Emerging Research Evidence:

PEG-MGF is studied in laboratory models to investigate the pathways of structural resilience and signaling persistence. This pegylated analog allows researchers to observe how cells coordinate IGF-related signaling and maintain architectural stability within a controlled environment. The focus remains on gathering data regarding biological agility and signal timing, providing a technical framework for understanding how extended molecular stability supports pathway coordination and systemic harmony at a cellular level.

Keep product in cool, dark place. Sold for Research Use Only / Not FDA Regulated Batch-verified inventory. See 3^rd Party COA.

In stock

Ipa + BPCresearch peptides, BPC-157 + Ipamorelin Research, Reserach TB 500 + Peg, PEG + Bpc Research, PEg MGF and BPC 157

Tissue Repair & Recovery Research Collection Overview

This research-grade collection is formulated to facilitate the in-depth study of soft-tissue repair kinetics, joint mobility markers, and the molecular modulation of inflammatory pathways. It provides a robust platform for investigating the biochemical mechanisms of muscle remodeling and the regulation of the GH/IGF-1 signaling axis within controlled laboratory environments. Simultaneously, these compounds allow researchers to address physiological markers related to sleep architecture, dermal collagen density, and skeletal strength, alongside the evaluation of neurocognitive performance models. As a unified, high-purity collection, it serves as an essential tool for laboratories dedicated to understanding multi-system recovery processes and integrated regenerative signaling through comprehensive experimental protocols.

Why these together?

“Synergy: By combining the regenerative capabilities of BPC-157 and TB-500 with Ipamorelin’s GH-axis support and PEG-MGF’s remodeling potential, this bundle offers a multi-faceted approach to recovery research. The synergistic effect provides broad coverage for studies targeting soft-tissue repair, enhanced mobility, and long-term structural integrity in controlled research models.”

BPC-157: widely researched for GI/vascular support and tissue repair signaling.
TB-500 (Thymosin β4 fragment): explored for cell migration, angiogenesis, and recovery kinetics.
Ipamorelin: GH secretagogue investigated for recovery, sleep quality, and body-composition proxies.
PEG-MGF: studied for post-exercise muscle remodeling and satellite-cell activation.

This bundle is curated to help investigators examine complementary pathways that literature associates with:

Tendon, ligament, muscle & tissue repair — assess cytoprotective and pro-healing signaling relevant to soft-tissue recovery.
Inflammation & pain markers — explore modulation of inflammatory mediators and downstream comfort endpoints.
Flexibility & mobility — evaluate functional movement proxies and recovery kinetics in preclinical models.
Lean muscle development — examine satellite-cell activation, hypertrophy proxies, and remodeling markers.
GH/IGF-1 axis & sleep quality — study secretagogue-linked endpoints associated with recovery and sleep architecture.
Age-associated cellular maintenance & collagen dynamics — investigate dermal matrix support, elasticity, and structural proteins in laboratory models.
Bone-health indicators — assess markers tied to skeletal remodeling.
Mental clarity — explore cognition and focus endpoints under research conditions.

BPC-157 5mg + TB 500 5mg

Research suggests potential to accelerate tendon, ligament, & muscle recovery, reduce inflammation markers, and support flexibility and mobility.

BPC-157 and TB-500 are peptides investigated for their synergistic potential in promoting healing mechanisms by accelerating tissue repair and modulating inflammation. BPC-157, derived from gastric juice, is primarily studied for localized healing of tendons, ligaments, and gut lining via growth factor stimulation. TB-500, a synthetic version of thymosin beta-4, is researched for systemic effects on cellular migration and actin support, which may further aid tissue repair processes. Research is ongoing and findings are emerging.

Ipamorelin

Studies indicate potential links to lean muscle support, accelerated recovery, improved sleep quality, collagen production, and bone health markers.

Ipamorelin is a selective agonist investigated for its ability to activate the ghrelin / growth-hormone secretagogue receptor (GHSR1a) and trigger growth-hormone (GH) release. It is designed for high selectivity with minimal observed impact on cortisol or ACTH in studies. Research suggests this GH stimulation may be linked to various observed benefits, including muscle mass support, tissue repair, lipolysis, and age-associated research models. Research is ongoing and findings are emerging.

PEG-MGF

Investigated for potential effects on muscle repair signaling, recovery kinetics, bone repair & inflammation reduction.

PEG-MGF is an isoform of Insulin-like Growth Factor-1 (IGF-1) that is naturally expressed in response to mechanical stress, activating muscle stem cells known as satellite cells. These cells are crucial for muscle fiber remodeling, and PEG-MGF is studied for its potential to accelerate this mechanism. Current studies focus on its role in muscle hypertrophy signaling and repair pathways. PEG-MGF is studied in laboratory models for its role in muscle remodeling and repair signaling. Research is ongoing and findings remain preliminary.

Research-only note: These compounds are not FDA-approved for therapeutic use; published effects are primarily preclinical and exploratory.

Disclaimer — For Research Purposes Only

For Research Use Only — Not for Human or Veterinary Use. Not evaluated or approved by the FDA. Not intended to diagnose, treat, cure, or prevent any disease. All information on this website is provided strictly for laboratory research and educational purposes. Nothing herein constitutes medical, clinical, or legal advice, nor an endorsement of non-laboratory use. Any discussion of specific peptides or potential research findings is informational only and must not be interpreted as guidance for use in or on humans or animals.

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