Female Vitality & Balance Stack – Bundle

The Female Vitality & Balance Research Stack (Selank, Ipamorelin, GHK-Cu) is an advanced formulation selected by research teams investigating stress modulation, neuroendocrine balance, and tissue-support signaling within women-focused experimental models. This stack is designed to support integrated exploration of neurological resilience, recovery-associated endocrine signaling, and connective tissue health within controlled research environments.

By combining anxiolytic neuropeptide research with growth hormone–related recovery pathways and tissue-support signaling, this formulation provides a comprehensive framework for women-centered vitality research.

Includes

• 1 vial of Selank (10 mg)
  
• 2 vials of Ipamorelin (10 mg each)
  
• 1 vial of GHK-Cu (100 mg)
  

This research stack brings together three compounds studied for their complementary roles in systems relevant to vitality and balance. Each component is examined for a distinct primary function:

• Selank is investigated for its potential influence on pathways related to the stress response and cognitive function.
• Ipamorelin is studied for its targeted stimulation of the body’s own growth hormone release, a key pathway in natural recovery processes.
• GHK-Cu is researched for its role in supporting skin and connective tissue health through mechanisms related to cellular repair and signaling.

The combination is structured to explore potential interactions across these different systems. The model allows researchers to examine how supporting neurological balance may create a foundational state that optimizes endocrine function. Concurrently, the promotion of natural recovery signaling through the endocrine system may enhance the cellular environment for tissue repair and maintenance. This multi-system approach provides a framework for studying vitality not as isolated functions, but as an interconnected network of neurological, endocrine, and structural health.

Mechanism and Research Focus

Selank is investigated for its interaction with neuropeptide pathways associated with stress modulation, emotional regulation, and cognitive resilience. Ipamorelin is studied for its selective stimulation of growth hormone secretagogue receptors, supporting examination of pulsatile endocrine recovery signaling. GHK-Cu is investigated for its role in copper-mediated cellular signaling linked to tissue repair, collagen regulation, and structural integrity. Coordinated observation of these mechanisms enables advanced investigation into integrated women’s vitality and balance research models.

Key Research Observations

Research has shown this stack may help support the following in non-clinical models:

• Stress and resilience signaling: observation of neuropeptide pathways associated with emotional regulation
  
• Neuroendocrine balance markers: assessment of CNS and endocrine pathway coordination
  
• Tissue and connective support signaling: evaluation of extracellular matrix and repair-related pathways
  
• Women-focused vitality modeling: integrated analysis of neurological, endocrine, and tissue mechanisms
  

Form and Handling

Research-grade peptides 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.