Hair Growth & Follicle Health Stack – Bundle

The Hair Growth & Follicle Health Research Stack (GHK-Cu, BPC-157, TB-500) is an advanced formulation selected by research teams investigating follicular signaling, tissue repair mechanisms, and vascular support pathways within controlled experimental models. This stack is designed to support comprehensive exploration of hair follicle environments through coordinated cellular repair, copper-peptide signaling, and systemic tissue remodeling pathways.

By combining follicle-associated signaling peptides with regenerative compounds, this formulation provides a multi-pathway framework for aesthetic and dermatological research.

Includes

• 1 vial of GHK-Cu (100 mg)
  
• 2 vials of BPC-157 (10 mg each)
  
• 3 vials of TB-500 (10 mg each)
  

This research stack combines three compounds studied for their complementary roles in supporting tissue health, with a focus on the follicle environment. Each component is investigated for a distinct primary function:

• GHK-Cu is researched for its role in tissue signaling and organization, particularly in relation to skin and connective tissue health.
• BPC-157 is studied for its potential in supporting cellular repair processes and protective signaling.
• TB-500 is examined for its association with structural protein regulation and pathways linked to supporting healthy blood flow.

The combination creates a multi-pathway research model. The stack is structured to investigate how supporting different but connected systems—cellular repair, tissue organization, and the local vascular environment—might work together to influence overall follicle health. This provides a framework for studying aesthetic and dermatological research questions from an integrated, systems-based perspective.

Mechanism and Research Focus

This stack enables research into three supportive mechanisms that may influence tissue and follicle environments:

Structural Support & Environment: TB-500 is studied for its role in regulating cellular structural proteins and its association with mechanisms that can promote a healthy vascular supply to tissues.

Tissue Organization & Signaling: GHK-Cu is investigated for its copper-dependent activity, which is studied in relation to cellular communication and the maintenance of healthy tissue structure.

Cellular Repair Processes: BPC-157 is researched for its potential to support pathways involved in cellular protection, healing, and integrity.

Key Research Observations

In structured models, this stack is used to study:

• Follicle Environment Activity: Observing cellular signaling and health markers within the hair follicle unit.
• Tissue Repair Markers: Tracking indicators related to cellular repair and the maintenance of the supporting tissue matrix.
• Vascular Support Indicators: Assessing factors related to blood flow and nutrient delivery in the local tissue environment.
• Integrated System Analysis: Building a holistic view by examining how repair, structure, and environmental support systems might interact to influence follicle health.

Form and Handling

Research-grade compounds supplied in lyophilized powder format aligned to stack components. Vials are provided individually. Store frozen at approximately −20 °C and protect from light to preserve compound stability throughout the research period.

Research Use Only

For laboratory research use only. Not for human or animal consumption, medical use, or therapeutic application.